Occupational Noise Exposure for Railroad Operating Employees, 63066-63138 [06-8612]
Download as PDF
<![CDATA[
63066
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
DEPARTMENT OF TRANSPORTATION
Federal Railroad Administration
49 CFR Parts 227 and 229
[Docket No. FRA 2002–12357, Notice No.
2]
RIN 2130–AB56
Occupational Noise Exposure for
Railroad Operating Employees
Federal Railroad
Administration (FRA), Department of
Transportation (DOT).
ACTION: Final rule.
rmajette on PROD1PC67 with RULES2
AGENCY:
SUMMARY: FRA is amending its
occupational noise standards for
railroad employees whose predominant
noise exposure occurs in the locomotive
cab. FRA’s previous standard (issued in
1980) limited cab employee noise
exposure to certain levels based on the
duration of their exposure. This rule
modifies that standard and also sets out
additional requirements.
FRA is requiring railroads to conduct
noise monitoring and to implement a
hearing conservation program for
railroad operating employees whose
noise exposure equals or exceeds an 8hour time-weighted average (TWA) of
85 decibels. FRA is also establishing
design, build, and maintenance
standards for new locomotives and
maintenance requirements for existing
locomotives. FRA expects that this rule
will reduce the likelihood of noiseinduced hearing loss for railroad
operating employees.
DATES: This final rule is effective
February 26, 2007. The incorporation by
reference of certain publications listed
in the rule is approved by the Director
of the Federal Register as of February
26, 2007. Any petitions for
reconsideration with this final rule must
be submitted no later than December 26,
2006.
ADDRESSES: Docket: For access to the
docket to read background documents
or comments received, go to https://
dms.dot.gov at any time or to Room PL–
401 on the plaza level of the Nassif
Building, 400 Seventh Street, SW.,
Washington, DC, between 9 a.m. and 5
p.m., Monday through Friday, except
Federal holidays.
FOR FURTHER INFORMATION CONTACT:
Alan Misiaszek, Senior Industrial
Hygienist, Office of Safety, Federal
Railroad Administration, 1120 Vermont
Avenue, NW., Mail Stop 25,
Washington, DC 20590 (e-mail:
Alan.Misiaszek@dot.gov and telephone:
202–493–6002); Jeffrey Horn,
Economist, Office of Safety, Federal
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
Railroad Administration, 1120 Vermont
Avenue, NW., Mail Stop 25,
Washington, DC 20590 (e-mail:
Jeffrey.Horn@dot.gov and telephone:
202–493–6283); or Jennifer Schwab,
Trial Attorney, Office of Chief Counsel,
Federal Railroad Administration, 1120
Vermont Avenue, NW., Mail Stop 10,
Washington, DC 20590 (email:Jennifer.Schwab@dot.gov and
telephone: 202–493–6349).
SUPPLEMENTARY INFORMATION: Note that
for brevity, all references to CFR parts
will be to parts in Title 49 of the Code
of Federal Regulations (49 CFR), unless
otherwise noted.
Table of Contents for Supplementary
Information
I. Background
A. Statutory and Regulatory Framework
1. Railroad Safety, In General
2. FRA–OSHA Jurisdiction for
Occupational Safety and Health Issues
3. Federal Occupational Noise Standards
B. History of FRA’s Treatment of
Occupational Noise
1. FRA’s Past Noise Standard
2. Studies of Noise
C. Fundamental Principles of Sound
D. Occupational Noise in the Railroad
Industry
II. The Railroad Safety Advisory Committee
(RSAC) Process
A. RSAC
B. Working Group
III. FRA’s Noise Standard
A. FRA’s Approach to Cab Noise
B. Responsibilities of Railroads and
Employees
C. Compliance
IV. Summary of Comments
A. In General
B. Approaches Other Than the OSHA HCA
C. Hierarchy of Controls
D. Triggering Criteria
E. Weighting Filter
F. Electronic Communication Headsets
G. Location of the Train Horn
H. Report to Congress
I. Regulatory Impact Analysis
V. Section-by-Section Analysis
VI. Regulatory Impact and Notices
A. Executive Order 12866 and DOT
Regulatory Policies and Procedures
B. Regulatory Flexibility Act of 1980 and
Executive Order 13272
C. Paperwork Reduction Act of 1995
D. Federalism Implications
E. Environmental Impact
F. Unfunded Mandates Reform Act of 1995
G. Energy Impact
H. Privacy Act
I. Background
A. Statutory and Regulatory Framework
1. Railroad Safety, in General
FRA has broad statutory authority to
regulate railroad safety. The Locomotive
Inspection Act (‘‘LIA’’) (formerly 45
U.S.C. 22–34, now 49 U.S.C. 20701–
20703) was enacted in 1911. It prohibits
PO 00000
Frm 00002
Fmt 4701
Sfmt 4700
the use of unsafe locomotives and
authorizes FRA to issue standards for
locomotive maintenance and testing. In
order to further FRA’s ability to respond
effectively to contemporary safety
problems and hazards as they arise in
the railroad industry, Congress enacted
the Federal Railroad Safety Act of 1970
(‘‘Safety Act’’) (formerly 45 U.S.C. 421,
431 et seq., now found primarily in
chapter 201 of Title 49 of the United
States Code). The Safety Act grants the
Secretary of Transportation rulemaking
authority over all areas of railroad safety
(49 U.S.C. 20103(a)) and confers all
powers necessary to detect and penalize
violations of any rail safety law. This
authority was subsequently delegated to
the FRA Administrator (49 CFR 1.49).
(Until July 5, 1994, the Federal railroad
safety statutes existed as separate acts
found primarily in Title 45 of the
United States Code. On that date, all of
the acts were repealed, and their
provisions were recodified into Title
49.)
The term ‘‘railroad’’ is defined in the
Safety Act to include all forms of nonhighway ground transportation that runs on
rails or electromagnetic guideways, * * *
other than rapid transit operations within an
urban area that are not connected to the
general railroad system of transportation.
This definition makes clear that FRA
has jurisdiction over (1) rapid transit
operations within an urban area that are
connected to the general railroad system
of transportation, and (2) all freight,
intercity, passenger, and commuter rail
passenger operations regardless of their
connection to the general railroad
system of transportation or their status
as a common carrier engaged in
interstate commerce. FRA has issued a
policy statement describing how it
determines whether particular rail
passenger operations are subject to
FRA’s jurisdiction.1 That policy
statement is located in Appendix A to
part 209.
Pursuant to its statutory authority,
FRA promulgates and enforces a
comprehensive regulatory program to
address railroad track, signal systems,
railroad communications, rolling stock,
rear-end marking devices, safety glazing,
railroad accident/incident reporting,
locational requirements for dispatching
of U.S. rail operations, safety integration
plans governing railroad consolidations,
merger and acquisitions of control,
operating practices, passenger train
emergency preparedness, alcohol and
drug testing, locomotive engineer
certification, and workplace safety. In
the area of workplace safety, the agency
has issued a variety of standards
1 See
E:\FR\FM\27OCR2.SGM
65 FR 42529 (July 2, 2000).
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
designed to protect the health and safety
of railroad employees. For instance,
FRA requires ladders and handholds to
be installed on rail equipment in order
to prevent employee falls (part 231).
FRA requires locomotive cab floors and
passageways to remain clear of debris
and oil in order to prevent employee
slips, trips, and falls (§ 229.119). FRA
requires blue signal protection in order
to protect employees working on
railroad equipment from injuries due to
the unexpected movement of the
equipment (part 218). FRA has rules
that provide for the protection of
railroad employees working on or near
railroad tracks in order to decrease the
risk of employees falling from railroad
bridges and of being struck by moving
trains (part 214).
rmajette on PROD1PC67 with RULES2
2. FRA–OSHA Jurisdiction for
Occupational Safety and Health Issues
FRA and the U.S. Occupational Safety
and Health Administration 2 (OSHA)
have a complementary relationship with
respect to occupational safety and
health issues in the railroad industry.
OSHA regulates conditions and hazards
affecting the health and safety of
employees in the workplace. OSHA’s
jurisdiction extends to working
conditions in all types of employment,
except where another Federal agency
exercises statutory authority to prescribe
or enforce standards or regulations
covering the working conditions
pursuant to § 4(b)(1) of the OSH Act. See
29 U.S.C. 653(b)(1). Section 4(b)(1)
preempts OSHA’s jurisdiction where
another federal agency issues its own
regulations or standards or articulates a
formal position that a particular
working condition should go
unregulated.
In 1978, FRA issued a Statement of
Policy setting out the respective areas of
jurisdiction between FRA and OSHA in
the railroad industry. See 43 FR 10583
(March 14, 1978). In that Policy
Statement, FRA drew the jurisdictional
line between ‘‘occupational safety and
health’’ issues in the railroad industry
and work related to ‘‘railroad
operations,’’ with FRA exercising
authority over railroad operations and
OSHA over occupational safety and
health issues. Further, the Policy
Statement pointed to FRA’s ‘‘proper
role’’ as concentrating its ‘‘limited
resources in addressing hazardous
working conditions in those traditional
areas of railroad operations’’ (i.e.,
2 OSHA is an agency within the U.S. Department
of Labor. Congress created OSHA with the
Occupational Safety and Health Act of 1970 (‘‘OSH
Act’’). Pursuant to the OSH Act, employers have a
duty to protect workers from workplace hazards,
including noise.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
‘‘movement of equipment over the
rails’’) in which FRA has special
competence and expertise. See 43 FR
10585. Often, railroad working
conditions are so unique that a
regulatory body other than FRA would
not possess the requisite expertise to
determine appropriate safety standards.
As a general rule, FRA exercises its
statutory jurisdiction over railroad
employee working conditions where
employees are engaged in duties that are
intrinsic to ‘‘railroad operations,’’ where
the identical conditions generally do not
occur in typical industrial settings, and
where the hazard falls within the scope
of FRA’s expertise. Historically, the
concept of ‘‘railroad safety’’ has
included the health and safety of
employees when they are engaged in
railroad operations. In its 1978
Statement concerning employee
workplace safety, FRA stated:
The term ‘‘safety’’ includes health-related
aspects of railroad safety to the extent such
considerations are integrally related to
operational safety hazards or measures taken
to abate such hazards. 43 FR 10585.
Hazards that impact the health of
railroad employees engaged in railroad
operations may also result in adverse
impacts on railroad safety, and so there
is often a clear nexus between railroad
safety and employee health. An example
of this jurisdiction is seen in FRA’s
issuance of locomotive sanitation
standards. See 67 FR 16032 (April 4,
2002). There, FRA promulgated
regulations that address toilet and
washing facilities for employees who
work in locomotive cabs. See 49 CFR
§§ 229.137 through 139.
FRA has also exercised this
jurisdiction with regard to occupational
noise in the locomotive cab. FRA issued
its current standard for locomotive cab
noise in 1980. While OSHA, in general,
regulates occupational noise in the
workplace,3 FRA is the more
appropriate entity to regulate noise in
the locomotive cab, because the
locomotive cab is so much a part of
‘‘railroad operations.’’ With respect to
noise in the locomotive cab, FRA wrote,
in its Policy Statement, that:
FRA views the question of occupational
noise exposure of employees engaged in
railroad operations, during their involvement
in such operations, as a matter
comprehended by the regulatory fields over
which FRA has exercised its statutory
jurisdiction. FRA is therefore responsible for
determining what exposure levels are
permissible, what further regulatory steps
may be necessary in this area, if any, and
what remedial measures are feasible when
3 See 29 CFR 1910.95 and 29 CFR 1926.52
(‘‘Occupational Noise Exposure’’).
PO 00000
Frm 00003
Fmt 4701
Sfmt 4700
63067
evaluated in light of overall safety
considerations. 43 FR 10588.
3. Federal Occupational Noise
Standards
OSHA’s occupational noise standard
was promulgated under the WalshHealey Public Contracts Act of 1969 4
for the purpose of protecting employees
from workplace exposure to damaging
noise levels. The Walsh-Healey Act
contained very limited provisions. Its
noise standard allowed for a permissible
exposure level of 90 dB(A), a 5 dB
exchange rate, and a 90 dB(A) threshold.
OSHA adopted the Walsh-Healey
standard as an OSHA standard pursuant
to section 6(a) of the OSH Act.
In January 1981, OSHA promulgated
a Hearing Conservation Amendment
(HCA) to its occupational noise
exposure standard. See 46 FR 4078
(January 16, 1981). The amendment
consisted of requirements for noise
measurements, audiometric testing, the
use and care of hearing protectors,
employee training, employee education,
and recordkeeping. Portions of the
amendment were subsequently stayed
for reconsideration and clarification.
See 46 FR 42622 (August 21, 1981). In
1983, OSHA finalized the provisions of
its Hearing Conservation Amendment
by revoking various stayed provisions,
lifting the stay on other provisions, and
making other technical corrections.5
OSHA’s revised regulation included a
detailed hearing conservation program
(HCP).6 OSHA’s occupational noise
standard applies, for the most part, to all
industry engaged in interstate
commerce.7 OSHA’s noise standard can
be found at 29 CFR 1910.95. As will be
discussed in subsequent sections, FRA’s
standard is quite similar to OSHA’s
standard.
While OSHA is the primary regulator
of noise in the workplace, other federal
agencies, in addition to FRA, regulate
specific occupational settings. FRA
regulates employee noise exposure in
the locomotive cab. The U.S. Air Force
regulates the noise environment of Air
Force personnel.8 The Mine Safety and
Health Administration (MSHA)
regulates the occupational noise
exposure of miners.
In 1999, MSHA issued a
comprehensive rule that establishes
uniform requirements for all miners. See
4 See
41 U.S.C. 35, et seq.
48 FR 9738 (March 8, 1983).
6 Throughout the rule, FRA uses ‘‘hearing
conservation program’’ and HCP interchangeably.
7 OSHA has a separate occupational noise
regulation that applies to the construction industry.
See 29 CFR 1926.52.
8 See Air Force Occupational Safety and Health
Standard 48–20, ‘‘Hearing Conservation Program.’’
5 See
E:\FR\FM\27OCR2.SGM
27OCR2
63068
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
64 FR 49548 (September 13, 1999). In
that rule, MSHA adopted a permissible
exposure level of 90 dB(A) as an 8-hour
TWA. MSHA also requires employers to
use all feasible engineering and
administrative controls in order to
reduce a miner’s noise exposure to the
permissible exposure level. Where a
mine operator is unable to reduce the
noise exposure to the permissible level,
the mine operator must provide the
miner with hearing protectors (HP) and
is required to ensure that the miner uses
them. In addition, where a miner is
exposed at or above a TWA of 85 dB(A),
the employer must place the miner in a
hearing conservation program. The
program must include exposure
monitoring, the use of hearing
protectors, audiometric testing, training,
and recordkeeping. See 64 FR 49550.
rmajette on PROD1PC67 with RULES2
B. History of FRA’s Treatment of
Occupational Noise
1. FRA’s Past Noise Standard
In part 229, FRA establishes
minimum federal safety standards for
locomotives. These regulations
prescribe inspection and testing
requirements for locomotive
components and systems. They also
prescribe minimum locomotive cab
safety requirements. In 1980, FRA
issued standards for acceptable noise
levels aboard a locomotive (49 CFR
229.121).9
Section 229.121 was promulgated to
protect the hearing and health of cab
occupants and to facilitate crew
communication. It provided that noise
level exposure in the cab may not
exceed specific prescribed levels. The
provision limited employee noise
exposure to an eight-hour time-weighted
average (TWA) of 90 dB(A) with a
doubling rate of 5 dB(A). It also
provided for an absolute upper noise
limit of 115 dB(A). In addition, it
established procedures for noise testing.
At the time of the promulgation of the
rule, there was discussion as to the
proposed noise exposure limits. One
commenter to the 1980 proposed rule
took exception to the proposed 90 dB(A)
8-hour time limit and suggested that 85
dB(A) was more appropriate. FRA
explained that, in selecting the
proposed noise exposure limits, it
attempted to ‘‘strike a balance between
that which is most desirable and that
which is feasible.’’ See 45 FR 21092,
21106 (March 31, 1980). FRA
acknowledged that more crew members
would be at a lower risk at 85 dB(A), but
9 For the Final Rule, see 45 FR 21092, 21105 and
21117 (March 31, 1980). For the Notice of Proposed
Rulemaking, see 44 FR 29604, 29618 and 29627
(May 21, 1979).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
also acknowledged that there would be
problems with the technical feasibility
of, and economic impact associated
with, an 85 dB(A) requirement. Based
on the information available and
technology of the time, FRA determined
that the 90 dB(A) 8-hour noise exposure
limit would ‘‘provide adequate
protection for the hearing,
communication, and comfort of
locomotive crews under presently
accepted standards.’’ See 45 FR 21092,
21106 (March 31, 1980).
The then-existing § 229.121 did not
address hearing conservation for
locomotive cab employees, including
the use of personal protective
equipment, ongoing hearing testing,
employee training on the cause and
prevention of hearing loss, and periodic
noise monitoring in the workplace.
These are standard components of an
occupational hearing conservation
program, and OSHA requires them of
other general industry workplaces
within its jurisdiction.
In 1992, Congress enacted section 10
of The Rail Safety Enforcement and
Review Act (RSERA) (Pub. L. 102–365,
September 3, 1992; codified at 49 U.S.C.
20103, note) in response to concerns
raised by employee organizations,
Congressional members, and
recommendations of the National
Transportation Safety Board (NTSB)
concerning crashworthiness of and
working conditions in locomotive cabs.
Section 10 of RSERA, entitled
Locomotive Crashworthiness and
Working Conditions, required FRA ‘‘to
consider prescribing regulations to
improve the safety and working
conditions of locomotive cabs’’
throughout the railroad industry. In
order to determine whether regulations
would be necessary, Congress required
FRA to assess ‘‘the extent to which
environmental, sanitary, and other
working conditions in locomotive cabs
affect productivity, health, and the safe
operation of locomotives.’’
In response to the Congressional
mandate set forth in Section 10 of
RSERA, FRA undertook steps to
determine the health and safety effects
of locomotive cab working conditions.
FRA studied a variety of working
conditions in locomotive cabs,
including sanitation, noise, temperature,
air quality, ergonomics, and vibration.
FRA prepared the Locomotive
Crashworthiness and Cab Working
Conditions Report to Congress
(‘‘Report’’), dated September 1996,
which outlines the results of these
studies. A copy of the Report is
PO 00000
Frm 00004
Fmt 4701
Sfmt 4700
included in the docket.10 With respect
to noise, FRA conducted a
comprehensive survey, reviewed
historical data on noise-related
incidents and investigations, and
gathered information on hearing
protection programs.
2. Studies of Noise
In the proposed rule, FRA provided
an extensive discussion on studies
related to noise in the locomotive cab.
This includes a 1971 study on highwayrail grade crossings 11 and an addendum
on the sound environment in the
locomotive cab,12 a 1980 study on incab occupational noise exposure,13 an
FRA Report to Congress on cab working
conditions,14 the Wyle Report (the
Association of American Railroads’
(AAR) review of FRA’s Report to
Congress),15 a 1997 Technical
Memorandum on the FRA Report to
Congress and subsequent review,16 and
an FRA Administrator’s Roundtable
Discussion on Noise. Copies of these
documents are included in the docket.
In the interest of space, FRA is not
republishing its discussion here. See 69
FR 35145, 35148–35151; June 23, 2004.
C. Fundamental Principles of Sound
FRA provided an extensive discussion
in the proposed rule on fundamental
principles of sound. The topics covered
include sound, hearing, hearing loss,
and instrumentation. See 69 FR 35145,
35152–35154.
D. Occupational Noise in the Railroad
Industry
Noise is one of the most pervasive
hazardous agents in the American
10 See document 4 of docket number 12357 on
DOT’s Docket Web site (dms.dot.gov).
11 John Aurelius and Norman Korebor, ‘‘The
Visibility and Audibility of Trains Approaching
Rail-Highway Grade Crossings,’’ Report No. FRA–
RP–71–2, May 1971.
12 John P. Aurelius, ‘‘The Sound Environment in
Locomotive Cabs,’’ Report No. FRA–RP–71–2A, July
1971.
13 Roger D. Kilmer, ‘‘Assessment of Locomotive
Crew In-Cab Occupational Noise Exposure,’’
National Bureau of Standards. Report No. FRA–
ORD–80/91, December 1980.
14 FRA Report to Congress, ‘‘Locomotive
Crashworthiness and Cab Working Conditions.’’
September 1996.
15 Eric Stusnick for Wyle Laboratories, ‘‘A Review
of the Noise and Vibration Sections of the Federal
Railroad Administration’s Report to Congress
Entitled ‘Locomotive Crashworthiness and Cab
Working Conditions.’ ’’ December 1996. See
document 6 of docket number 12357 on DOT’s
Docket Web site (dms.dot.gov).
16 Technical Memorandum from Hugh J.
Saurenman and Lance D. Meister of Harris Miller,
Miller & Hanson, Inc., ‘‘Comments on AAR Review
of Chapter 6, FRA Report to Congress ‘‘Locomotive
Crashworthiness and Cab Working Conditions.’’
June 1997. See document 7 of docket number 12357
on DOT’s Docket Web site (dms.dot.gov).
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
workplace. In the 1980’s, the National
Institute for Occupational Safety and
Health (NIOSH) identified noiseinduced hearing loss (NIHL) as one of
the ten leading work-related diseases
and injuries.17 In the 1990’s, NIOSH
listed noise-induced hearing loss as one
of the eight most critical occupational
diseases and injuries requiring research
and development activities within the
framework of the National Occupational
Research Agenda.18 Noise is also one of
the most intrusive aspects of locomotive
operations.19
There are many noise sources in a
locomotive cab. The primary noise
sources are engine noise, locomotive
horns, and brake noise. The nature and
level of noise generated by each source
varies greatly. Diesel engine noise is
continuous, but it varies according to
the engine load and engine speed. The
noise from locomotive horns (and other
audible warning devices) is sporadic but
can be very loud if the window is open
and can be very frequent if there are
many highway-rail grade crossings.
Brake noise results from the air
exhaust that comes from the brake
valves when the brakes are released. Air
brake exhaust is a high frequency sound
and can be very intense. In the past, air
brake exhaust vented directly into the
locomotive cab. By 1980, locomotive
manufacturers, maintenance facilities,
and railroads had started venting the
exhaust below the cab floor. FRA noted
this change in its 1980 locomotive cab
noise rule. See 45 FR 21092 (March 31,
1980). FRA recognized the effectiveness
of this redesign, noting that it reduced
the cab occupant’s noise dose by an
estimated 15 to 20 percent while still
providing an audible indication of brake
performance. See 45 FR 21092, 21015
(March 31, 1980). Manufacturers
continued to re-design locomotives
accordingly, and today the vast majority
of locomotives have their air brake
exhaust vented below the floor and
away from the crew. There are some
older locomotives, though (such as the
ones used by some short lines), which
still use the older equipment that vents
air brake exhaust into the cab.
Another noise source comes from
vibrations which loosen cab
components—such as loose cab sheet
17 National Institute for Occupational Safety and
Health (NIOSH), ‘‘Criteria for a Recommended
Standard: Occupational Noise Exposure, Revised
Criteria 1998,’’ National Institute for Occupational
Safety and Health, DHHS (NOISH) Pub. No. 98–126,
Cincinnati, OH (1998).
18 NIOSH, ‘‘National Occupational Research
Agenda,’’ National Institute for Occupational Safety
and Health, DHHS (NIOSH), Pub. No. 96–115,
Cincinnati, OH (1996).
19 Human Factors Guidelines for Locomotive
Cabs, DOT/FRA/ORD–93/03 (November 1998).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
metal, loose cab side windows, and
miscellaneous loose and/or poorly fitted
cab equipment—and cause them to
resonate. Other potential noise sources
include fans on dynamic brake systems;
alerters; wheel/rail contact at cruising
speed; rooftop or retrofitted air
conditioning/cooling units; bells that
are sounded to indicate that the train is
about to move; and radios that are used
for crew communication. Noise can also
result from the cab structure, depending
on the particular design of the
locomotive as it pertains to noise or
vibration isolation. Maintenance, or the
lack thereof, can also impact noise.
Engines in less than ideal condition will
run rougher and noisier. Mountings can
wear and loosen, which can create new
vibrations or decrease vibration
damping. Also, worn engine
components (e.g., bearings) can create
noise.
The locomotive is also subject to
several external noise sources. Since the
locomotive cab is a mobile workplace,
the level of noise exposure varies greatly
by the route traveled. Noise results from
the sound that is reflected into the cab
(especially if through open windows)
from reflective surfaces such as tunnels,
bridges, sheds, and close embankments.
Other conditions that can also impact
noise include the topography and grade
of the work assignment and the use of
locomotive horns to provide notice at
highway-rail grade crossings.
Predicting and addressing noise
exposures in the locomotive cab is
difficult not only because of the wide
variety of possible conditions, but
because of the mobile railroad
workforce. It is a challenge to create and
implement effective training and testing
programs, because locomotive crews are
not on the same run or same locomotive
from one day to the next. In addition,
locomotive crews can work shifts that
last up to twelve hours.
II. The Railroad Safety Advisory
Committee (RSAC) Process
A. RSAC
In March 1996, FRA established the
RSAC, which provides a forum for
developing consensus recommendations
on rulemakings and other safety
program issues. The Committee
includes representation from all of the
agency’s major customer groups,
including railroad carriers, labor
organizations, suppliers, manufacturers,
and other interested parties. A list of
member groups follows:
American Association of Private Railroad Car
Owners (AARPCO)
American Association of State Highway &
Transportation Officials (AASHTO)
PO 00000
Frm 00005
Fmt 4701
Sfmt 4700
63069
American Public Transportation Association
(APTA)
American Short Line and Regional Railroad
Association (ASLRRA)
American Train Dispatchers Department
(ATDD)
Association of American Railroads (AAR)
Association of Railway Museums (ARM)
Association of State Rail Safety Managers
(ASRSM)
Brotherhood of Locomotive Engineers and
Trainmen (BLET)
Brotherhood of Maintenance of Way
Employes Division (BMWED)
Brotherhood of Railroad Signalmen (BRS)
Federal Transit Administration (FTA)*
High Speed Ground Transportation
Association
International Association of Machinists and
Aerospace Workers
International Brotherhood of Electrical
Workers (IBEW)
Labor Council for Latin American
Advancement (LCLAA)*
League of Railway Industry Women*
National Association of Railroad Passengers
(NARP)
National Association of Railway Business
Women*
National Conference of Firemen & Oilers
National Railroad Construction and
Maintenance Association
National Railroad Passenger Corporation
(AMTRAK)
National Transportation Safety Board
(NTSB)*
Railway Supply Institute (RSI)
Safe Travel America
Secretaria de Communicaciones y Transporte
(Mexico)*
Sheet Metal Workers International
Association (SMWIA)
Tourist Railway Association Inc.
Transport Canada*
Transport Workers Union of America
(TWUA)
Transportation Communications
International Union/BRC (TCIU/BRC)
United Transportation Union (UTU)
* Indicates associate membership.
When appropriate, FRA assigns a task
to the RSAC, and after consideration
and debate, the RSAC may accept or
reject the task. If the RSAC accepts the
task, the RSAC establishes a working
group that possesses the appropriate
expertise and representation of interests
to develop recommendations to FRA for
action on the task. The working group
develops the recommendations by
consensus. The working group may
establish one or more task forces to
develop the facts and options on a
particular aspect of a given task. The
task force reports to the working group.
If a working group reaches unanimous
consensus on recommendations for
action, the working group presents the
package to the RSAC for a vote. If a
simple majority of the RSAC accepts the
proposal, the RSAC formally
recommends the proposal to FRA.
E:\FR\FM\27OCR2.SGM
27OCR2
63070
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
FRA then determines what action to
take on the recommendation. Because
FRA staff has played an active role at
the working group level in discussing
the issues and options and in drafting
the language of the consensus proposal,
and because the RSAC recommendation
constitutes the consensus of some of the
industry’s leading experts on a given
subject, FRA is often favorably inclined
toward the RSAC recommendation.
However, FRA is in no way bound to
follow the recommendation, and the
agency exercises its independent
judgement on whether the
recommended rule achieves the
agency’s regulatory goal, is soundly
supported, and is in accordance with
policy and legal requirements. Often,
FRA varies in some respects from the
RSAC recommendation in developing
the actual regulatory proposal. If the
working group or the RSAC is unable to
reach consensus on recommendations
for action, FRA moves ahead to resolve
the issue through traditional rulemaking
proceedings.
On June 24, 1997, FRA presented the
subject of locomotive cab working
conditions to the RSAC. The purpose of
this task was defined as follows: ‘‘To
safeguard the health of locomotive
crews and to promote the safe operation
of trains.’’ The RSAC accepted this task
(No. 97–2) and formed a Locomotive
Cab Working Conditions Working Group
(‘‘Working Group’’).
B. Working Group
rmajette on PROD1PC67 with RULES2
Task 97–2 addressed several issues,
one of which was noise exposure. With
respect to noise exposure, RSAC asked
the Working Group to complete two
items: (1) Revise existing cab noise
limits to take into account current
requirements of the OSHA standard,
specifically as it relates to hearing
conservation programs, and (2)
Continue efforts to evaluate engineering
controls and other measures used to
minimize noise exposure in locomotive
cabs.
The Working Group consisted of
representatives of the following
organizations, in addition to FRA:
AASHTO
APTA
ASLRRA
AAR
BLET
BMWED*
IBEW
AMTRAK
RSI (formerly Railway Progress Institute)
SMWIA
TWUA
UTU
* Indicates associate membership.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
The Working Group’s goal was to
produce recommendations for
locomotive cab noise exposure
standards warranted by an assessment
of available information on hearing loss,
hearing conservation programs, existing
federal standards, and occupational
injury data. The Working Group decided
that specific expertise would be needed
to analyze pertinent information and so
it formed the Noise Task Force.
The Noise Task Force, which was
established in September 1997, was
made up of industrial hygiene, safety,
engineering, and medical staff from
carriers, labor organizations, and FRA.
The Noise Task Force met regularly over
a period of several years to discuss
several topics, including hearing loss
and noise exposure among locomotive
cab employees; existing railroad hearing
loss prevention programs; OSHA’s
occupational noise standards;
equipment changes and procedures that
improve noise levels in the cab; hearing
testing and training programs; and noise
monitoring.
The Noise Task Force concluded that
OSHA’s standard for noise was an
appropriate framework and starting
point for an update and revision to
FRA’s existing noise regulation. The
Noise Task Force also identified several
areas where OSHA’s regulation might be
modified to create a FRA regulation that
could better address the occupational
noise exposure of the rail industry. The
Noise Task Force forwarded these
findings to the Working Group.
The Working Group conducted a
number of meetings and discussed each
of the matters proposed in the NPRM.
FRA has placed the minutes of these
meetings in the docket for this
proceeding. Throughout this preamble,
FRA frequently discusses issues that the
Noise Task Force and Working Group
raised and views that they shared. FRA
discusses these points to show the
origin of certain important issues and
the course of discussion on these issues
at the task force and working group
levels. FRA believes that this helps
illuminate the facts FRA has weighed in
making its regulatory decisions and the
logic behind those decisions. The reader
should keep in mind, of course, that
only the full RSAC makes
recommendations to FRA, and it is the
consensus recommendation of the full
RSAC on which FRA is acting.
The Working Group, using the
preliminary findings of the Noise Task
Force, developed recommendations for
reducing the likelihood of hearing loss
for cab employees. In June 2003, the
Working Group reached consensus on
recommendations for the proposed rule
and forwarded these recommendations
PO 00000
Frm 00006
Fmt 4701
Sfmt 4700
to the RSAC. On June 27, 2003, the
RSAC accepted these recommendations,
which had been reviewed and accepted
by FRA.
On June 23, 2004, FRA published an
NPRM containing the recommendations
of the Working Group and the full
RSAC. See 69 FR 35146. The NPRM
provided for a 90-day comment period
and provided interested parties the
opportunity to request a public hearing.
The comment period closed on
September 21, 2004. FRA received
comments from approximately 50
interested parties. There were a wide
variety of commenters, including
individual locomotive engineers;
professional, scientific, and
credentialing associations; congressmen;
individual audiologists; an acoustical
consulting firm; a commuter railroad;
and a manufacturing company.
FRA reconvened the Task Force on
March 1, 2005 and the Working Group
on March 2–3, 2005 to discuss the
comments that FRA received about the
NPRM. The Task Force and the Working
Group considered all the comments and
again reached consensus on
recommendations for a final standard.
These recommendations were presented
to the RSAC and on May 18, 2005, the
RSAC accepted these recommendations.
The RSAC voted to forward these
recommendations to FRA as the basis
for a final occupational noise standard.
FRA has reviewed the RSAC’s
recommendations and has adopted the
recommendations in this final rule.
FRA has worked closely with the
RSAC in the development of its
recommendations and believes that the
RSAC effectively addressed
occupational noise exposure for cab
employees. FRA has greatly benefitted
from the open, informed exchange of
information that has taken place during
meetings. There is general consensus
among labor, management, and
manufacturers concerning the primary
principles FRA sets forth in this final
rule. FRA believes that the expertise
possessed by the RSAC representatives
enhances the value of the
recommendations, and FRA has made
every effort to incorporate them in this
rule.
III. FRA’s Noise Standard
A. FRA’s Approach to Cab Noise
As OSHA governs workplace safety,
and OSHA has already issued
regulations in the area of occupational
noise, FRA used OSHA’s standard as a
foundation for its own standard.
However, there are many areas in which
the OSHA standard differs from the FRA
standard. The purpose of this
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rulemaking is to adapt the OSHA rule to
the unique circumstances of the railroad
environment. The working environment
for railroad cab employees is quite
different than that of the typical
American worker. Also, the noise
exposure of railroad employees is not
uniform throughout the industry.
Railroad employees may work in a
different location each day, i.e., a
different locomotive and/or a different
route. Employee assignments and actual
time in the cab may vary significantly
during a typical week. The level of noise
in any individual locomotive cab will
vary greatly, depending on the
locomotive model, locomotive age,
condition of the locomotive, length of
the route, traffic on the route, number of
highway-rail grade crossings on the
route, physical characteristics of the
route, weather conditions during the
run, and any one or more of several
other factors. FRA’s rule has taken into
account these unique characteristics of
the railroad operating environment and
has modified OSHA’s standard to fit the
railroad industry.
Since FRA’s rule is based on OSHA’s
rule, it is helpful to review OSHA’s
standard before explaining FRA’s
standard. OSHA’s noise standard limits
employee noise exposure to an 8-hour
TWA of 90 dB(A). OSHA identifies a
hierarchy of controls that should be
used to limit noise exposure. If
employee noise exposure exceeds the
permissible exposure level, the
employer must reduce the exposure (so
that it is within permissible exposure
limits) through the use of feasible
engineering controls, administrative
controls, or a combination of both.
Where such controls cannot reduce
employee exposure to permissible
limits, employers are to supplement the
engineering and administrative controls
with hearing protection. The OSHA
noise standard also requires that the
employer administer a continuing
effective hearing conservation program
for employees who are exposed to levels
that equal or exceed an 8-hour TWA of
85 dB(A).
OSHA places engineering and
administrative controls at the top of its
hierarchy and takes the position that
these controls are the best method for
controlling noise exposure. These
controls reduce employee exposure to
hazardous noise levels by eliminating
(or at least reducing) the noise at the
source, by modifying the noise path or
by decreasing employee exposure time
to the noise source. Engineering controls
are generally understood to be the
modification or replacement of
equipment or any other related physical
change at the noise source or along the
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
transmission path that reduces the noise
level at the employee’s ear (not
including hearing protectors). They
include such changes as the re-design of
machinery or the use of different tools.
Administrative controls involve efforts
to limit worker noise exposure by
modifying work schedules, work
locations, or the operating schedule of
noisy machinery. An example of
Administrative Controls would be
schedules for rotation of employees
from tasks that are near noisy machinery
to quieter areas. The objective is
employee exposures with lower time
weighted average levels of exposure.
FRA’s standard on locomotive cab noise
is based very heavily on OSHA’s
standard. In this final rule, FRA requires
railroads to limit employee noise
exposure to an 8-hour TWA of 90
dB(A).20 Also, FRA requires railroads to
implement a hearing conservation
program for those employees who are
exposed to noise levels that equal or
exceed an 8-hour TWA of 85 dB(A).
FRA’s doubling, or exchange, rate is 5
dB(A). FRA’s decision to use a 5 dB
doubling rate is notable, because a 5 dB
doubling rate is different than the
scientific principle for a doubling rate.
Technically, an increase of 3 dB
represents a doubling of sound energy.21
In making its decision, FRA considered
a doubling rate of 3 dB, 4 dB, and 5 dB.
FRA ultimately decided on a 5 dB
doubling rate. NIOSH recommends a 3
dB doubling rate, the Air Force uses a
3 dB doubling rate, and OSHA and
MSHA use a 5 dB doubling rate.
In its 1999 rulemaking on
occupational noise for miners, MSHA
faced a similar decision, choosing
between a 3 dB or 5 dB exchange rate.
MSHA conducted a study and found
that the exchange rate substantially
affects the measured noise exposure;
nonetheless, MSHA retained the 5 dB
exchange rate because of feasibility
concerns.22 In its final rule, MSHA
concluded that
it would be extremely difficult and
prohibitively expensive for the mining
industry to comply with the existing
permissible exposure level with a 3 dB
exchange rate, using currently available
engineering and administrative noise
controls. MSHA therefore cannot
demonstrate that implementation of such an
exchange rate would be feasible. However,
20 For a complete list of the permissible noise
exposures, see Table 1 in § 227.103. According to
Table 1, railroads must limit employee noise
exposure to 85 dB(A) as a 16-hour TWA, 87 dB(A)
as a 12-hour TWA, 90 dB(A) as an 8-hour TWA, and
so on.
21 See discussion in § IV(A) of the background
section.
22 64 FR 49548, 49588–49589 (September 13,
1999).
PO 00000
Frm 00007
Fmt 4701
Sfmt 4700
63071
[MSHA] will continue to monitor the
feasibility of adopting a 3 dB exchange rate.
64 FR 49548, 49589 (September 13, 1999).
FRA, like MSHA, recognizes that the
cost and feasibility of a 3 dB exchange
rate is prohibitive. Furthermore, there
was a consensus decision of the RSAC
Working Group that 5 dB is most
appropriate. Taking all of those factors
into account, FRA has decided to use a
doubling rate of 5 dB. Thus, a 5 dB
increase in the time weighted average
level reduces the permitted time of
exposure duration by half.
FRA recognizes the same noise
control measures as OSHA (i.e.,
engineering controls, administrative
controls, and hearing protection);
however, FRA uses different terms to
describe some of those controls. OSHA
uses the term, ‘‘administrative
controls,’’ while FRA uses the term
‘‘noise operational controls.’’ These two
terms are the functional equivalent.
Also, OSHA uses the term ‘‘engineering
controls,’’ while FRA uses no equivalent
term—FRA instead describes the
specific actions which railroads and
manufacturers must take when
designing, building, and maintaining
locomotives.
FRA’s overall approach toward
controls differs from that of OSHA. FRA
does not explicitly adopt OSHA’s
hierarchy of controls. As explained
above, OSHA places controls in a
hierarchy and mandates their use
according to that hierarchy. FRA has no
such hierarchy. Rather, FRA has specific
requirements that railroads must satisfy.
FRA requires railroads to obtain and
maintain locomotives built to meet the
performance standard for maximum
noise level in the cab defined by the
standards in § 229.121. (This is
somewhat equivalent to OSHA’s
‘‘engineering controls’’). FRA mandates
that railroads require employees to use
hearing protectors when employees are
exposed to noise levels that exceed an
8 hour-TWA of 90 dB(A). (This is
equivalent to OSHA’s hearing protector
requirement). And, FRA gives railroads
the option of using noise operational
controls when employees are exposed to
noise levels that exceed 90 dB(A) as an
8 hour-TWA. (This is equivalent to
OSHA’s ‘‘administrative controls’’). It is
very important to note that FRA does
not require the use of noise operational
controls. Thus, when a railroad learns
that an employee is exposed to noise
levels that exceed an 8-hour TWA of 90
dB(A), the railroad must provide the
employee with HP, but need only
consider the use of noise operational
controls. Using noise operational
controls as an option rather than a
requirement was done in recognition of
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63072
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
the nature of railroad operations and the
impact of other federal laws, specifically
the Hours of Service law. This law
limits crew working hours to 12 hours,
thus also permitting work shifts of up to
12 hours. Given the fact that
administrative controls use periods of
time removed from exposure to reduce
the dose, and the fact that the only way
to be removed from exposure on a train
(except passenger trains) would be to
leave the train, mandating
administrative controls to reduce noise
exposure would have the effect of
changing the operating practices of the
entire industry without regard to other
issues such as where and how to get the
exposed crews off the trains and how to
get replacement crews on them.
The RSAC Working Group spent a
great deal of time discussing options
and developing the recommended
requirements for § 229.121 and thus a
discussion is warranted here. An
Engineering Controls Task Force, a
subgroup of the Noise Task Force, met
to discuss the feasibility of engineering
controls. Among its findings, the group
identified certain items that might help
reduce noise exposure in the locomotive
cab. In identifying these items, FRA has
given serious consideration to those
items which are feasible and those items
which are not feasible.
In developing the proposed and final
rules, the RSAC Working Group
participants noted that since the early
1990s, the industry has taken delivery of
thousands of newer locomotives
engineered to reduce noise levels.
Original equipment manufacturers used
a variety of strategies to sharply reduce
the portion of noise dose derived from
the prime mover and to filter out other
noise sources. The cabs of most of these
locomotives provide an environment
where, for the great majority of
operating circumstances, employees
will not experience 8 hour TWA
exposures approaching 90 dB(A), and
under most circumstances, exposures
are not expected to reach the action
level. Railroads have also specified
placement of horns in the center of the
locomotive, rather than immediately
over the cab, further reducing noise
levels experienced by employees.
Finally, as noted below, the practice of
venting the airbrake system into the cab
has been largely abandoned.
Accordingly, the challenges in this
proceeding have principally to do with
management of noise exposure in older
locomotives, at least minimal
standardization of hearing conservation
programs that have grown up without
regulation, ensuring the progress in
engineering of locomotives is
maintained, and addressing the needs of
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
employees of smaller railroads by
providing basic guidance regarding
noise monitoring, hearing conservation,
training, and recordkeeping. To the
extent that many comments filed by
non-railroad parties assume a much
more dire situation, those comments
have missed the mark and, in many
cases, have called for measures not
warranted by the facts.
The RSAC Working Group also found
that certain maintenance tasks—e.g.,
repair, replacement, or installation of
cab insulation, door seals, window
seals, weatherstripping, and electrical
cabinet insulation and seals—can help
reduce in-cab noise levels. The group
also discussed other engineering
controls and maintenance items which
have been shown to reduce noise
exposure in the cab, e.g., venting piping
for air brake exhaust and power control
devices out and under the locomotive;
using air cooling devices so that
windows can be closed; and using
noise-dampening window glass which
limits the penetration of noise and
thereby limits the contribution of
outside noise. In addition, the group
discussed the location of locomotive
horns and agreed that relocation of the
horn to the center position had reduced
crew noise exposure.
FRA recognizes that there are many
benefits to using engineering and
maintenance controls. First, they do not
interfere with crew and radio
communication, which personal
Hearing Protection (HP) devices can do.
HP can interfere with crew and radio
communication by blocking out
necessary sounds in addition to
unwanted noise. Second, engineering
and maintenance controls do not
present the potential hazard of
overprotection that HP may present.
Engineering controls block out noise at
its source, or along its transmission
path, thus there is no concern that
necessary sounds will be blocked out
too. Third, engineering controls put less
burden on the employee and as a result,
are easier for employees to use. With
HP, railroads must ensure that
employees are properly trained on the
use of the devices, and employees must
ensure that they don and wear the
devices properly. Due to the benefits of
engineering controls, FRA did not want
to exclude their use. However, due to
burden that it would impose on
railroads if there was a general
requirement for the use of engineering
controls, FRA did not include the
requirement as found in OSHA’s rule.
The burden was recognized when it was
made clear by experts in locomotive
noise reduction engineering that
imposing the requirement to first use
PO 00000
Frm 00008
Fmt 4701
Sfmt 4700
engineering controls to reduce exposure
would require re-engineering the cab
structure, the suspension and other
elements of the locomotive to achieve
the required noise reduction at a cost
approaching that of buying a new
locomotive. As a compromise, rather
than imposing a general engineering
controls requirement on railroads, FRA
identified limited and specific
engineering controls—the design and
build requirements in § 229.121(a) and
the maintenance requirements in
§ 229.121(b)—which railroads must use.
This background section has sought to
provide an overview of FRA’s rule, as
well as a broad comparison to OSHA’s
rule. A more thorough discussion of the
differences between OSHA’s and FRA’s
standards is provided in the Section-bySection Analysis below.
B. Responsibilities of Railroads and
Employees
The primary responsibility for
compliance with this regulation lies
with employers, i.e., railroads. As such,
railroads have several enumerated
responsibilities. This regulation requires
railroads to: Develop and implement a
noise monitoring program; administer a
hearing conservation program; establish
and maintain an audiometric testing
program; make audiometric testing
available to employees; implement
noise operational controls (if desired);
require the use of hearing protection;
make hearing protection available to
employees at no cost; train employees in
the use and care of hearing protection;
ensure proper fitting of and supervise
the correct use of hearing protection;
give employees the opportunity to select
hearing protection from a variety of
suitable hearing protection; evaluate
hearing protection attenuation; initiate
and offer a training program, maintain
and retain records; and obtain and
maintain locomotives that meet
specified standards for limiting in-cab
noise.
The responsibilities of employees
derive from those of the railroad.
Employees’ responsibilities come from
railroad policies, which are issued
pursuant to this regulation. This
regulation would require employees 23
to: Use their hearing protection when
mandated by the railroad; care for their
hearing protection as trained by the
railroad; and complete the training
program which is offered by the
railroad. There is one additional
obligation for which employees have
23 In their comments, the AAR pointed out that
the preamble inaccurately used the term
‘‘employers’’ in place of ‘‘employees.’’ FRA has
corrected that typo in this final rule.
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
primary responsibility—employees
must report for audiometric testing once
every three years. While railroads have
an affirmative obligation to offer testing,
employees have an affirmative
obligation to report for testing. Without
adequate audiometric testing, a hearing
conservation program will not succeed,
and so FRA is identifying an employee’s
audiometric testing obligation as a
primary responsibility.
Because employee responsibilities
are, for the most part, derivative,
compliance would generally take place
through the railroad disciplinary
process, rather than direct enforcement
by FRA. FRA does, however, recognize
one major exception. FRA may assess
civil penalties for a wilful violation 24
for an employee who does not report for
audiometric testing. Overall, FRA
expects that employees will fully
comply with all of their responsibilities.
Railroads should perform required
actions, and employees should
reciprocate with their commensurate
responsibilities. Railroads should set
expectations of compliance, and
employees should meet those
expectations of compliance.
rmajette on PROD1PC67 with RULES2
C. Compliance
FRA’s principal method of
enforcement will be through audits.
With an industrial hygienist as team
leader, an audit team will examine a
railroad’s hearing conservation program.
The team will examine whether the
railroad is adequately protecting its
employees. The team will speak with
the program manager, review records
(e.g., noise monitoring records,
audiograms, standard threshold shift
records, etc.) and determine the extent
to which the railroad is complying with
the requirements of this regulation. If
warranted, FRA will take enforcement
action against the railroad.
In addition, if FRA has reason to
believe that certain locomotive crews
are being exposed to high noise doses,
FRA inspectors will ride in the
locomotive cab with those crews to
measure the sound levels and determine
the crews’ exposure. FRA inspectors
may also review maintenance records to
determine whether railroads have
corrected defective conditions (e.g.,
loose windows, deteriorated seals).
Additionally, FRA will investigate
employee complaints of excessive noise.
24 Under
the railroad safety laws, civil penalties
may be assessed against individuals only for willful
violations. See 49 U.S.C. 21304.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
IV. Summary of Comments
A. In General
Overwhelmingly, the commenters to
this rule applauded FRA for amending
its noise standard. They commended
FRA for taking the initiative to prevent
noise-related hearing loss among
railroad workers. They also expressed
their support for FRA’s effort to
establish a uniform noise exposure rule
for railroad operating employees,
explaining that a uniform noise
standard for the railroad industry will
facilitate understanding of, and
compliance with, regulatory
requirements. One commenter was
pleased to see that FRA had addressed
both noise control (part 229
requirements) and hearing conservation
(part 227 requirements) in this rule,
because, based on their observations,
the most successful hearing loss
prevention programs are those that
include both noise control and hearing
conservation components.
The commenters acknowledged that
FRA’s rule would bring about some
significant improvements in certain
areas of hearing conservation and would
significantly improve the health and
safety conditions for cab occupants.
However, several commenters felt that
the proposed rule still fell short of an
effective hearing conservation program.
Chief among that concern, commenters
felt that FRA was relying too heavily on
OSHA’s standard. Commenters agreed
that OSHA’s standard was a good
starting point, but explained that
OSHA’s standard could use some
updating.
They explained that OSHA’s rule is
over 20 years old and rooted in even
older data. One commenter explained
that the OSHA standard was based
largely on the NIOSH recommended
criteria from 1972, which was based on
research in the 1950s and 1960s. The
commenters went on to explain that,
since that time, there have been new
scientific findings (including advances
in the fields of acoustics and
bioacoustics), technological
advancements, and years of field
experience. The commenters felt that
FRA should make more efforts to
incorporate these advances into its
standard. They explained that their
comments tended to reflect this
viewpoint. Along these lines, some
commenters encouraged FRA to
consider incorporating components of
‘‘stronger’’ standards such as MSHA’s
recent rule and the 1998 NIOSH revised
criteria.
FRA was very cognizant of these
issues in drafting the rule. While FRA
modeled its rule after OSHA’s standard
PO 00000
Frm 00009
Fmt 4701
Sfmt 4700
63073
and not after an alternative standard
such as NIOSH’s 1998 revised criteria,
FRA notes that FRA did not adopt each
one of OSHA’s provisions without
question. FRA incorporated several new
changes into its revised noise standard,
including some changes at this final rule
stage. Throughout the process, FRA has
tried to strike a balance between
deferring to OSHA, the lead federal
agency in the field of occupational
safety and health, and incorporating
changes based on scientific advances,
technological improvements,
recognition of some of the unique
circumstances present in the railroad
operating environment, and field
experiences. FRA believes that this rule
strikes the proper balance at this time.
In the paragraphs below, FRA
discusses several overarching
comments. FRA discusses comments
specific to the rule text in the sectionby-section analysis.
B. Approaches Other Than the OSHA
HCA
FRA modeled this rule after OSHA’s
Hearing Conservation Amendment
(HCA). Several commenters strongly
encouraged FRA to rewrite this rule
based on the 1998 Revised Criteria for
a Recommended Standard. They noted
that NIOSH’s more stringent standards,
such as an exposure limit of 85 dB(A)
or an exchange rate of 3 dB, will better
protect railroad workers by significantly
reducing their risk of noise-induced
hearing loss. Once commenter wrote
that FRA, by choosing the OSHA model,
had proposed what amounts to a
watered down ‘‘hearing loss
documentation program.’’
Another commenter, the doseBusters
Company,25 questioned why FRA gave
little ‘‘consideration’’ to other
prevention strategies. The doseBusters
Company argued that OSHA’s HCA is a
flawed approach to the prevention of
hearing loss and cited several reasons
why it believes that FRA should have
considered other prevention strategies:
(1) The HCA is based on information,
analyses, thinking, and technology that
is 25 years old; (2) At the time of its
adoption, the HCA represented a
compromised approach; and (3) The
prescriptive approach of the HCA may
preclude more effective and/or
conservative alternatives and stifle
future innovation in prevention efforts.
The doseBusters Company suggested
that FRA provide a performanceoriented framework for the prevention
25 FRA notes that the doseBusters Company Web
site no longer exists and that FRA has been unable
to find the doseBusters Company through any other
means on the Internet.
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63074
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
of noise-induced hearing loss by either
adopting, or at least allowing,
alternative strategies. As one of those
alternate strategies, the doseBusters
Company advocated for its own
solution—a program of continuous
monitoring using a proprietary device
that also serves as a hearing protector.
The Exposure Smart Protector (ESP)
system simultaneously measures a
workers’s actual noise exposure and
provides protection to the worker. This
allows the employer to routinely
determine the efficacy of the personal
HP for individual users in real
workplaces. It also provides the
employee with individual feedback on
his or her own daily noise exposure.
After discussion with the RSAC
Working Group, FRA decided that it
would not specify such alternate
prevention strategies and that it would
instead continue to model its rule after
OSHA’s HCA. FRA has chosen to follow
OSHA’s lead in this matter, because
OSHA is the lead agency in the field of
occupational safety and health.
Presumably OSHA used its expertise
and resources to determine that the
HCA is the most appropriate method for
hearing conservation. Moreover, the
HCA approach is a proven and effective
method in the work place environment.
With respect to the doseBuster
Company’s ESP System, FRA is
unaware of any peer review or other
scientific evaluation of that approach.
As the doseBuster Company pointed
out, the approach is still undergoing
testing and review. In addition, there are
several fundamental issues that the
doseBusters Company did not address
and would need to be addressed before
FRA could employ this alternate
prevention strategy. Among those issues
are: Under what circumstances does the
railroad decide to equip the employees
with these devices? Should the railroad
equip all potentially exposed employees
or only a predefined group? What
criteria would the railroad use to
identify the predefined group?
Furthermore, these devices have the
potential to create an unsafe operating
environment. Railroad employees need
to focus their attention on their jobs and
the safe operation of trains. These
devices, which depend on significant
employee attention, would prevent
employees from focusing all their
attention on their jobs. Finally, FRA
does not believe it is appropriate to
identify a single commercial product as
a means of meeting the requirements of
the rule. This is of even greater concern
given that the use of the ESP devices
would impose a significant, increased
burden on railroads in complying with
other requirements of the rule (i.e.,
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
noise exposure monitoring and the
associated recordkeeping requirements).
While the doseBuster Company’s
concept is interesting, FRA does not
believe that there is sufficient evidence
that the device would be effective in
increasing the protection of employees
or that the system would be either
practical or affordable for employers.
As explained above, FRA modeled
this rule after the OSHA HCA. FRA
chose not to use alternate prevention
strategies such as NIOSH’s
Recommended Standard 26 or the
doseBuster Company’s ESP system.
While FRA has not chosen to use these
alternate strategies, there is nothing in
the rule that precludes a railroad
employer from using any individual
components of these strategies, as long
as the components are consistent with
the requirements of FRA’s rule. For
example, if a railroad wished to use
doseBuster Company’s ESP hearing
protectors, the railroad is free to do so,
as long as the railroad satisfies all the
requirements of this rule.
Finally, an individual engineer
suggested that FRA consider another
issue as part of its approach to hearing
conservation. Specifically, the
commenter wrote that FRA should
mandate the use of air ride seats to
address the problem of bone conduction
whole body vibration. He asserted that
vibration has an impact on hearing. FRA
is not mandating the use air ride seats
in this final rule, because the issue of
vibration in locomotives is out of the
scope of this rulemaking. It is possible
that FRA will address this issue in the
future. Vibration is listed as item
number 3 on RSAC Task Statement 97–
2 on Locomotive Cab Working
Conditions and is discussed in Chapter
10 of FRA’s September 1996 Report to
Congress. However, FRA is not issuing
regulations on the issue of vibration at
this time.
C. Hierarchy of Controls
As explained above in section III(A),
OSHA and FRA differ with respect to
the controls each employs. OSHA
identifies a hierarchy of controls that
should be used to limit noise
exposure—engineering controls and/or,
administrative controls, and then
hearing protection. FRA recognizes the
same controls but utilizes a specific
strategy to ensure cost effective
26 Please note that while FRA has not adopted
NIOSH’s standard in whole (e.g., exposure limit
based on 85 dB(A) limit and a 3 dB exchange rate,
or annual training), FRA notes that it has adopted
some components of the NIOSH standard (e.g.,
integrating sound levels up to 140 dB and
conducting audiometric tests at 8000 Hz).
PO 00000
Frm 00010
Fmt 4701
Sfmt 4700
implementation of the controls in the
railroad industry.
Several members of Congress
submitted comments about the
hierarchy of controls. Each of them
expressed concern that FRA was using
an approach different than OSHA and
MSHA with respect to engineering
controls. They explained that the
primary tool under the OSHA and
MSHA scheme is the elimination of
noise from the workplace through
engineering controls. They also pointed
out that both OSHA and MSHA require
the use of engineering controls only if
they are commercially viable and
economically feasible. In urging FRA to
follow the lead of the other Federal
agencies, one Congressman wrote that
‘‘OSHA is well-versed in the scientific
and technical capabilities of engineering
controls.’’ He also wrote that ‘‘the OSHA
standard has been proven to
successfully protect the hearing of
workers and the adoption of the OSHA
standards will allow our nation’s
workplaces to have a consistent
standard across all industries.’’ These
Congressmen and Senators urged FRA
to consider revising the proposed rule
so that, consistent with the other
Federal noise standards, FRA’s rule
would require employers to use
engineering controls as the primary
method of reducing employee noise
exposure.
Other commenters also expressed
concern about FRA’s approach. Several
organizations wrote that FRA should
base its rule on the ‘‘widely accepted
concept of a hierarchy of controls.’’
Cooper Tire and Rubber Company
(‘‘Cooper Tire’’), which specializes in
the manufacturing of transportation
industry products, likewise disagreed
with FRA’s decision not to mandate the
use of engineering controls as the
primary strategy to combat workplace
noise. Cooper Tire noted that FRA failed
to follow OSHA’s and MSHA’s lead
‘‘due to unspecified concerns about the
burden engineering controls would
impose on railroads.’’ Cooper Tire felt
that it was ‘‘unclear how the FRA came
to the conclusion regarding the costs of
engineering controls.’’ Cooper Tire
explained that it has scientific and
technological expertise in the area of
noise reduction and control and that it
is aware of current, off-the-shelf
technology that will adequately address
low-frequency locomotive noise. As a
result, Cooper Tire believes that
railroads can implement engineering
controls at modest cost with maximum
benefit to employees.
Cooper Tire also felt that FRA’s
approach to engineering controls (i.e.,
specific prescriptive requirements)
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
stifles the advancement of technology.
Cooper Tire believes that by not
allowing engineering controls generally,
‘‘FRA seems to presuppose that the
proposed rule reflects all current
technology and that no new technology
will address the problem of workplace
noise-induced hearing loss.’’ Like the
above commenters, Cooper Tire
recommended that FRA adopt the same
approach as OSHA and MSHA, ‘‘one
which does not dictate specific
engineering controls * * * but instead
allows the employer to evaluate various
engineering controls on the basis of
their effectiveness, cost, technical
feasibility, as well as their implications
for equipment, use, service, and
maintenance.’’ Cooper Tire advocated
that FRA use an Active Noise Reduction
approach and discussed information on
an actual installation of an Active Noise
Reduction System tested by Cooper
Tire.
In contrast, FRA also received
comments indicating that FRA should
be less reliant on engineering controls.
The doseBusters Company wrote that
‘‘the role of engineering controls is
always emphasized, yet in reality their
impact on prevention of hearing loss is
problematic.’’ The doseBusters
Company argued that engineering
controls are not superior to hearing
protection; that even if successfully
implemented, engineering controls only
prevent hearing loss for a fraction of
workers (since few exposures are
reduced to the action level through the
use of engineering controls); and that
engineering controls are not truly that
effective (as evidenced by the fact that
employers tend to rely on conventional
hearing protection rather than
engineering controls as the principal
means of preventing hearing loss).
FRA appreciates the theoretical merit
of active noise control (‘‘noise
cancellation’’) and has researched this
subject in prior years in the context of
community noise impacts. FRA believes
that technology for active noise control
may be useful in the future for reducing
noise exposure in cab environments
generally or in connection with audio
headsets. Nothing in this rule prohibits
use of this technology either in
connection with initial qualification of
locomotives or with respect to railroads’
providing HP to employees. However,
FRA is not aware of any rigorous
demonstration that existing technology
is feasible and ‘‘cost effective’’ for this
purpose. The commenter provided no
economic information supporting the
claim that its proprietary technology is
ready for application in the railroad
environment, and FRA is not aware of
any other supplier making such a claim.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
FRA welcomes demonstration of the
technology on locomotives in service,
and FRA is prepared to assist in
facilitating such a demonstration.
However, FRA is not prepared to
mandate an abstract requirement for
engineering controls based upon a
single supplier’s representation that the
technology is available and affordable.
FRA believes that the more specific
requirements for engineering controls
embodied in this final rule are more
suitable given existing knowledge.
With regard to the issue of freezing
technology as asserted by Cooper Tire,
FRA does not mandate any specific
approach to manufacturing quieter
locomotives, only that they meet a
performance standard of a maximum
permitted level of noise. Manufacturers
and railroads are free to use any
technology they wish to meet this
requirement and FRA would expect the
railroads and OEMs to continue to seek
better (and perhaps cheaper) ways to do
this.
Throughout the rulemaking process,
FRA devoted a great deal of time to
considering OSHA’s rule and exploring
alternative options. The RSAC Working
Group engaged in extensive discussions
on this issue and even formed a Task
Force to solely consider the issue of
engineering controls. The RSAC
Working Group generally agreed that
engineering controls should be
emphasized as the first approach where
feasible, but rather than leaving
determinations of feasibility to later
interpretation, the Working Group
recommended that FRA specify the
actions to be taken (i.e., new
locomotives required to meet static
testing requirements, protection of
sound-insulating properties in existing
locomotives, repair of certain noise
sources as identified by crews). The
RSAC Working Group had the
confidence to take this approach
because, over the past decade and a half,
locomotive manufacturers have
produced new locomotives that protect
against excessive noise levels. At the
same time, the RSAC Working Group
recognized that there are operational
conditions where, due to the limitations
of glazing material or the need to run
with windows open, occasional
excessive doses might be encountered
and that avoiding the need to employ
HP under these circumstances might not
be feasible. OSHA, by contrast,
generally deals with fixed work places
and needs a more general approach in
order to address a wide range of
industrial and commercial
establishments.
As a result of these discussions, FRA
and the RSAC Working Group decided
PO 00000
Frm 00011
Fmt 4701
Sfmt 4700
63075
that the best approach for the railroad
industry was the approach proposed in
the NPRM—identify those specific
engineering controls which were
feasible and mandate them. FRA is
further convinced of the
appropriateness of that approach by the
fact that it evolved out of the consensus
process of the RSAC Working Group,
which was comprised of representatives
from railroads, manufacturers, unions,
and others.
Given the number and nature of
comments on engineering controls, FRA
is reiterating its approach toward
engineering controls specifically and
controls generally.27 FRA’s overall
approach toward controls differs from
OSHA. Although OSHA and FRA both
have the same three controls, FRA uses
different terminology for two of them:
(1) OSHA uses the term ‘‘administrative
controls,’’ and FRA uses the term ‘‘noise
operational controls.’’ (2) OSHA uses
the term ‘‘engineering controls,’’ and
FRA uses no comparable term. FRA
does however, require specific
engineering controls. Those items are
found in § 229.121. (3) Finally, both
OSHA and FRA use the term ‘‘hearing
protector.’’
OSHA places controls in a hierarchy
and mandates their use according to that
hierarchy—first engineering controls,
and/or administrative controls, and
finally hearing protectors. (Occupational
noise exposure standard, administrative
controls and engineering controls are on
equal footing. See 29 CFR
1910.95(b)(1).) FRA has no such
hierarchy. FRA expects that railroads
will comply with the requirements in
§ 229.121 (equivalent to OSHA’s
engineering controls) and that railroads
will comply with the requirements
regarding hearing protectors. FRA gives
railroads the option of using noise
operational controls (OSHA’s equivalent
of administrative controls).
Engineering controls are generally
understood to be the modification or
replacement of equipment or any other
related physical change at the noise
source or along the transmission path
that reduces the noise level at the
employee’s ear (not including hearing
protectors). They include such changes
as the re-design of machinery or the use
of different tools.
Rather than impose the general
requirement to ‘‘use engineering
controls,’’ FRA has identified the
specific engineering controls which
railroads must use. Specifically,
railroads must buy locomotives
manufactured such that they do not
27 For a more detailed discussion, see the
preamble to proposed rule at 69 FR 35145, 35155.
E:\FR\FM\27OCR2.SGM
27OCR2
63076
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
exceed a certain decibel level (see
§ 229.121(a)(1)), must maintain those
‘‘new’’ locomotives in such a way that
alterations do not cause the sound level
to increase beyond certain decibel levels
(see § 229.121(a)(2)), and must maintain
all pre-existing locomotives so that they
do not reach excessive noise levels (see
§ 229.121(b)(1)). In maintaining
locomotives, railroads must be
cognizant of items, including but not
limited to, defective cab window seals,
defective cab door seals, broken or
inoperative windows, deteriorated
insulation or insulation that has been
removed for other reasons, broken or
inoperative doors, and air brakes that
vent outside of the cab (see
§ 229.121(b)(2)).
In addition to the items unique to this
rulemaking, FRA has several other preexisting maintenance requirements that
reduce cab noise levels. Conditions that
can contribute to the noise dose, such as
leaking manifolds, flat spots on wheels,
insecurely attached components, and
general conditions addressed in § 229.45
are already required to be maintained
properly under FRA’s regulations or the
Locomotive Inspection Act itself for
other safety reasons.
In practice, all of these items, both the
maintenance items listed in the final
rule and pre-existing maintenance
requirements in part 229, function like
engineering controls, because they
modify or replace equipment at the
noise source so that it reduces the noise
level at the employee’s ear. So, while
FRA does not use the term ‘‘engineering
controls,’’ FRA still employs
engineering controls. Indeed, over the
past decade and a half, the locomotive
fleet has come to be dominated by cabs
that are sufficiently quieter such that
hearing protection is not required under
most conditions of operation.
Finally, FRA’s standard is different
from OSHA’s in the following way.
OSHA imposes a general requirement
that their regulated industries must use
engineering controls where they are
technically and economically feasible.
By contrast, FRA imposes specific
requirements with which railroads
absolutely must comply. Railroads have
much less leeway when it comes to
these controls than do OSHA’s regulated
industries.
D. Triggering Criteria
The rule has two triggering criteria
levels. The first one, which is located in
§ 227.107, delineates when a railroad
should place an employee in a hearing
conservation program. It requires
railroads to place employees in a
hearing conservation program if
employees are exposed to noise at or
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
above the action level (i.e., an 8-hourTWA of 85 dB(A) with a 5dB exchange
rate). The second one, which is located
in § 227.105, delineates when a railroad
should actively protect employee
hearing. It requires railroads to provide
appropriate protection to employees
whose noise exposure exceeds the
permissible limit of an 8-hour-TWA of
90 dB(A) with a 5 dB exchange rate.
Several commenters were displeased
with these triggering criteria. They
recommended that FRA lower the
exchange rate to 3 dB and the criterion
level to an 8-hour-TWA of 85 dB(A) and
that FRA use this as the sole trigger for
compliance. The commenters asserted
that an exposure limit based on 90
dB(A) and a 5 dB exchange rate is not
protective enough for employees. The
National Hearing Conservation
Association (NHCA) wrote that these
limits ‘‘will expose workers to an
unacceptably high risk of noise induced
hearing loss.’’ Similarly, NIOSH wrote
that the 90 dB(A) limit exposes
‘‘workers to a statistically significant
increase in the risk of occupational
hearing loss.’’ Likewise, a locomotive
engineer wrote that ‘‘90 dBA over 8
hours is a ridiculously high amount of
noise. Anyone exposed to this day in
and day out will certainly suffer hearing
loss * * *. The one thing I was hoping
you would do was lower the allowable
noise level in all of our locomotive cabs
and you have not done that.’’
NIOSH pointed to statistics, which
show that there is a increased risk to
employees exposed to noise at higher
levels. NIOSH quoted a 1997 article by
Stayner Prince and Gilbert Smith, which
explained that, with at least 10 years of
occupational noise exposure, eight
percent of 65-year old workers would
develop a material hearing impairment
at 85 dB(A), twenty-two percent at 90
dB(A), thirty-eight percent at 95 dB(A),
and forty-four percent at 100 dBA. A
Minnesota audiologist with a 20-year
career in audiology, Ted Madison, cited
additional NIOSH statistics, in his
attempt to show that FRA’s proposed
standard would result in noise-induced
hearing loss for an ‘‘unacceptably high
percentage of railroad workers.’’ Mr.
Madison wrote that the estimated excess
risk of incurring material hearing
impairment over a 40-year working
lifetime with average daily noise
exposure of 90 dB(A) is 20% while the
estimated excess risk with an average
daily noise exposure of 85 dB(A) is only
15%.
In addition, a number of commenters
pointed out that many government,
scientific, and professional
organizations recommend (and in some
cases, mandate the use of) an 85 dB(A)
PO 00000
Frm 00012
Fmt 4701
Sfmt 4700
permissible exposure limit and a 3 dB
exchange rate. This includes
organizations such as the U.S.
Department of Defense, U.S.
Environmental Protection Agency, and
the National Institute for Occupational
Safety and Health. The commenters also
pointed out that most European
countries use 85 dB(A) or less and that
both the International Organization for
Standards (ISO) and the American
National Standards Institute (ANSI)
have adopted standards that rely on a 3
dB exchange rate. One commenter
asserted that ‘‘virtually all other
industrialized countries use a 3 dB
exchange rate.’’
In suggesting a 3 dB exchange rate,
commenters made several other
arguments. American Speech-LanguageHearing Association (ASHA) and the
American Industrial Hygiene
Association (AIHA) asserted that a 3 dB
exchange rate was ‘‘more appropriate
and protective for railroad employees.’’
They rejected FRA’s decision to follow
MSHA, arguing that the ‘‘noise exposure
conditions, legacy of engineering
controls, and other criteria surrounding
MSHA’s adoption of the 5 dB rule are
not necessarily germane to the railroad
industry.’’ Theresa Schulz, who has
spent more than 20 years as a hearing
conservation audiologist in the U.S.
military, wrote that the 3 dB exchange
rate is ‘‘based on scientific principle and
the physics of sound.’’ Cooper Tire
explained that ‘‘US and international
regulatory agencies have eschewed the
5 dB exchange rate because of certain
inherent deficiencies * * * [and] have
embraced a more scientifically-sound,
worker-friendly 3 dB exchange rate that
is based on much better data than
existed in the 1970s when the 5 dB
exchange rate was first utilized.’’
Commenters proposed various
alternatives. NHCA recommended that
FRA revise the rule to include the
Threshold Limit Values (TLVs) for noise
established by the ACGIH. The TLVs are
based on an 8-hour TLV of 85 dB(A) and
a 3 dB exchange rate. NIOSH suggested
that if FRA ultimately decided to retain
the 90 dB(A) exposure limit and the
5 dB exchange rate, then FRA should
include a non-mandatory appendix
containing tables from the 1998 NIOSH
revised criteria document. Those tables
would be analogous to the existing
OSHA/FRA tables, however, they would
calculate the numbers with a 85 dB(A)
exposure limit/3 dB exchange rate
(LNIOSH) in addition to calculating the
numbers with a 90 dB(A) exposure
limit/5 dB exchange rate (LOSHA).
Commenters explained that, by having
both sampling protocols, railroad safety
and health professionals would be able
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
to better understand the spectrum of
hearing risks faced by railroad
employees and could better choose the
most relevant method for protecting
employee hearing. Overwhelmingly,
though, the commenters advocated for
FRA to ‘‘follow the NIOSH expert
advice’’ and adopt an 85 dB(A) exposure
limit and a 3 dB exchange rate.
For several reasons, FRA has decided
to leave the triggering criteria as
proposed. First, with respect to the
exchange rate, many commenters argue
that the 3 dB rate is much more
protective than the 5 dB rate that FRA
proposed and now adopts. The issue,
however, is not as clear as the
commenters suggest. There are two
major approaches that have been taken
in attempts to develop a simple scheme
for determining the appropriate level of
protection: the equal-energy approach
and the equal-TTS approach. ‘‘The
equal-energy approach is an example of
attempts to equate exposures on the
basis of their physical characteristics
directly, while the equal-TTS method is
based on an assumed correlation
between permanent and temporary
effects of noise exposure.’’ 28
The equal energy approach ‘‘makes
the assumption that damage depends
only on the daily amount of A-weighted
sound energy that enters the ear of the
worker, and that the temporal pattern
during the day is irrelevant.’’ 29 This
approach ultimately leads to the ‘‘3 dB
rule,’’ which is that one should reduce
the permissible time of exposure by half
for every 3 dB increase in dose level.
Thus, the argument for a 3 dB exchange
rate assumes that since 3 dB represents
a doubling in the acoustical energy, it
also represents a doubling of the damage
risk based on the daily exposure rate.
However, this is not necessarily true. A
doubling in energy does not necessarily
represent a doubling of the damage risk,
because there is a serious shortcoming
with this theory. This theory only
applies to single steady uninterrupted
exposures. This theory does not account
well for exposures to noise
environments where the noise levels
vary widely in intensity and throughout
the work shift. Where exposures vary
widely in intensity and over time, there
is an opportunity for some auditory
recovery and so the damage risk is not
28 Berger, E.H. (2000). ‘‘Auditory and Nonauditory Effects of Noise’’ in The Noise Manual, 5th
Edition, edited by E.H. Berger, L.H. Royster, J.D.
Royster, D.P. Driscoll, and M. Layne, Am. Ind. Hyg.
Assoc., Fairfax, VA, 137.
29 Berger, E.H. (2000). ‘‘Auditory and Nonauditory Effects of Noise’’ in The Noise Manual, 5th
Edition, edited by E.H. Berger, L.H. Royster, J.D.
Royster, D.P. Driscoll, and M. Layne, Am. Ind. Hyg.
Assoc., Fairfax, VA, 137.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
equivalent to exposures to steady state
noise. The second theory is the equalTTS theory. It ‘‘is based on the
hypothesis that daily exposures that
produce the same temporary effects will
eventually produce the same permanent
effects.’’ 30 This theory does not have the
same problem as the equal-energy
theory, for it does not make the mistake
of ignoring temporal patterns.
Neither of these approaches, however,
are well-suited for the locomotive cab
noise environment. FRA experience has
shown that exposures for crews of older
and relatively ‘‘noisy’’ locomotive cabs
are a mixture of periods of generally
steady state noise at low to medium
levels (80–90 dB(A)) interspersed with
short periods with high noise levels
(e.g., horn blowing, operations through
tunnels and underpasses, and other
relatively short term events). Given that
crew exposures vary in intensity and
over time, the equal energy approach
(which ignores these temporal patterns)
is not appropriate. As for the equal-TTS
approach, it might be a seemingly more
accurate method of assessing damage
risk, but it is not suitable for regulatory
compliance purposes, because its
criteria are extremely complicated to
apply.
During the development of the OSHA
HCA, OSHA was likewise faced with
the practical reality of these approaches.
OSHA wanted a simplified approach to
establishing an equivalent exposure, but
one that would account for the
intermittence of exposures inherent in
many occupational noise settings.
Accordingly, OSHA came up with the
5 dB exchange rate. They ‘‘decided that
the best way to take into account the
reduction of hazard associated with
intermittence was to use a trading
relation of 5 dB per halving of exposure
time.’’ 31 FRA, like OSHA, believes that
the 5 dB exchange rate is the most
appropriate one to use at this time.
Second, FRA does not feel
comfortable changing the triggering
criteria, since it would be a radical
departure from the existing leading
federal regulation on occupational noise
exposure. The leading federal regulatory
authority for occupational hearing loss
is OSHA, and the leading federal
regulation on occupational noise
exposure is OSHA’s general industry
standard. See 29 CFR 1910.95. The
current OSHA permissible exposure
limit, action level, and exchange rate are
the same as those that FRA is using in
this final rule. During this rulemaking
proceeding, FRA sent a letter dated
January 11, 2005 to OSHA and asked
30 Id.
31 Id.
PO 00000
at 138.
at 139.
Frm 00013
Fmt 4701
Sfmt 4700
63077
whether OSHA’s position had changed
since the issuance of the HCA and
whether OSHA had any plans in the
near future to modify its exchange rate.
In referring to scientific and technical
issues including the exchange rate,
OSHA replied in a March 16, 2005 letter
that ‘‘OSHA has not re-addressed these
issues since [the issuance of the HCA]
and our position remains essentially
unchanged.’’ (Copies of the letters are
included in the docket). In addition,
FRA notes that in a 1999 rulemaking,
MSHA adopted hearing conservation
requirements for miners, using the same
limits and exchange rate as OSHA. See
64 FR 49548 (September 13, 1999).
Third, FRA notes that the data
supported by several of the commenters
(to support a 3 dB exchange rate) fails
to take into account the actual nature of
employee exposure. Studies cited in the
comments (that compare the risk of
hearing loss over time based on the level
of the employee’s noise exposure)
presume that employees experience
these exposures without any protective
measures. That is not necessarily true.
Employees who are included in a
hearing conservation program are
presumably educated about the risk of
noise, have been offered HP at certain
noise levels, and have been required to
wear HP at certain levels. Thus,
employees in a HCP are a ‘‘protected’’
population and their hearing loss will
be less than that of the ‘‘unprotected
populations’’ (that are cited in the
studies). And so the risk of hearing loss
with a 5 dB exchange rate is not as high
as commenters suggest.
Fourth, even if FRA were to accept
the argument that the 3 dB exchange
rate is more protective and appropriate
for the noise experienced by locomotive
crews, FRA cannot adopt the lower limit
given the implications that would
result. While the railroads are subject to
FRA’s noise standard for their noiseexposed employees in the locomotive
cab, railroads are subject to OSHA’s
noise standard for noise-exposed
employees in areas outside of the
locomotive cab. See § 227.101. If FRA
adopted a 3 dB exchange rate and OSHA
continued with its 5 dB exchange rate,
railroads would have to comply with
two different regulatory criteria for their
employees. That would be overly
burdensome, difficult, and costly. For
example, it would most likely
substantially increase the railroad’s
recordkeeping burden and the railroad’s
cost for medical services. There are
limits to what technology permits and
what the regulated industry can afford.
FRA would be pushing those limits by
imposing the 3 dB exchange rate.
E:\FR\FM\27OCR2.SGM
27OCR2
63078
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
Fifth, the use of the 3 dB exchange
rate is not as widespread as some
commenters suggest. FRA believes there
is a marked distinction between
professional organizations that
recommend a 3 dB exchange rate and
Federal agencies that actually enforce a
3 dB exchange rate on a regulated
community. Most of the entities that
recommend the use of the 3 dB
exchange rate are professional
organizations like NIOSH, ACGIH,
NHCA, ASHA, and the American
Academy of Audiology (AAA), as well
as standards organizations like ANSI
and ISO. Few Federal regulatory
agencies actually enforce a 3 dB
exchange rate standard on a regulated
community. OSHA and MSHA use a 5
dB exchange rate. DOD is one of the few
federal agencies that has a 3 dB
exchange rate, but even DOD is in an
unique position, for they have internal
guidelines, as opposed to regulations in
the Code of Federal Regulations. (In
addition, the Air Force is an especially
unique situation since the Air Force’s
employees face unusually high noise
levels, and so the 3 dB exchange rate is
warranted). For the reasons listed above,
FRA believes that the adopted triggering
criteria is the best approach currently
available to achieve the regulatory and
occupational health objectives of this
rule. Accordingly, in this final rule, FRA
is using the same triggering criteria as
proposed in the NPRM.
E. Weighting Filter
FRA used the A-weighted scale
throughout the proposed rule. FRA
explicitly acknowledges its use in
§ 227.105(a), where FRA writes ‘‘A
railroad shall provide appropriate
protection for its employees who are
exposed to noise that exceeds the limits
of those shown in Table 1 of this
section, as measured on the dB(A) scale
as set forth in Appendix A of this part.’’
(A weighting filter is an electronic
device in the sound measuring
instrument that changes the way the
instrument detects the intensity of
different frequencies of sound. The Aweighting filter is designed to
approximate the sensitivity of the
human ear to the different sound
frequencies.) Two commenters, Cooper
Tire and an individual railroad
employee, suggested that FRA should
use the C-weighted scale instead of the
A-weighted scale.
Cooper Tire asserts that the Aweighting scale is not appropriate for
the locomotive cab noise environment.
Cooper Tire explains that the noise
generated by a locomotive is radically
different than the noise found in other
industrial environments (i.e., of a lower
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
frequency), and so FRA should use a
weighting scale that appropriately
measures low-frequency noise (i.e., the
C-weighted scale). Cooper Tire explains
that ‘‘A-weighted noise measurements
filter out low-frequency noise content
characteristic of locomotive noise prior
to the noise measurement, giving an
artificially low measure of an
environment’s likelihood of causing
harm to the locomotive employee.’’ By
contrast, Cooper Tire believes that the
C-weighted scale will better measure the
low-frequency noise and thus ‘‘will
afford railroad workers better protection
against the negative hearing and health
effects that low frequency noise can
cause.’’ Similarly, an individual BLET
member submitted comments,
requesting that FRA use a C-scale
instead of an A-scale in order to better
measure low frequency noise.
Consistent with its position in the
proposed rule and OSHA’s position in
its general industry standard, FRA will
require railroads to use the A-weighted
scale for measuring occupational noise
in the workplace. Not only is the Aweighted scale the most appropriate
weighing filter for this purpose, but it is
also the most widely accepted.
According to the AIHA Noise Manual,
‘‘As a result of investigations in which
a variety of weighing filters have been
compared, it has been concluded that
empirically derived measures using Aweighting gives a better estimation of
the threat to hearing * * * than do the
other weightings. Because of simplicity
and substantiated results, A-weighting
has continued to receive wide
acceptance.’’ 32 The Working Group
members agreed with this position, as
does FRA. Accordingly, FRA has not
changed the weighting scale it uses in
this rule.
F. Electronic Communication Headsets
During pre-NPRM Working Group
meetings, the matter of electronic
communication headsets generated
extensive discussions. Railroad
representatives strongly disfavor the use
of these devices. They maintain that
they are ineffective and have gained
poor acceptance by crews. They also
assert that it is expensive for them to
purchase such devices and to apply the
necessary wiring to locomotives to use
them. Labor representatives, in
response, agree that these devices have
gained poor acceptance by crews, but
assert that the poor acceptance is due to
32 Earshen, John J. (2000). ‘‘Sound Measurement:
Instrumentation and Noise Descriptors’’ in The
Noise Manual, edited by Elliott H. Berger, Larry H.
Royster, Dennis P. Driscoll, Julia Doswell Royster,
and Martha Lane, American Industrial Hygiene
Association, 54.
PO 00000
Frm 00014
Fmt 4701
Sfmt 4700
the conditions of their use, i.e., nontemperature controlled locomotive cabs
make for a warm cab environment with
the resulting heat build-up under the
headsets causing discomfort. Labor
representatives believe that these
hearing protection devices enhance
communication and that crews would
more widely and readily accept these
devices if the circumstances of their use
were improved.
In the NPRM, FRA sought comment
from the public on the use of different
types of hearing protection, including
electronic communication headsets.
Several commenters, all of whom
appear to be railroad operating
employees, questioned why FRA did
not require the railroad industry to use
noise canceling headsets with built-in
communication microphones. The
commenters explained that the headsets
work well for airline pilots, and so
would probably also work well for
locomotive engineers. Another
commenter explained that these
headsets would keep out the locomotive
noise and make it easier to hear the
dispatcher. Overall, these commenters
felt strongly that these headsets would
make a significant difference and would
decrease the noise level in locomotives.
One individual, in particular, wrote that
‘‘[these headsets] would not be
inexpensive, but [these headsets] are
worth their weight in gold in an aircraft
environment and would likely be the
same in a locomotive.’’
The AAR, however, disagreed as to
the value of these headsets when used
as hearing protection. The AAR noted
that several of their members have had
extensive experience with radio
headsets and have found that their use
is limited. The AAR explained that the
headsets have been poorly received by
most crews and that many employees
found the headsets to be uncomfortable.
The AAR also explained that many
employees lost their headsets or left
them at home. The consensus of the
AAR members is that ‘‘the
disadvantages and cost of radio headsets
far outweigh any benefits they might
offer.’’
FRA considered this issue and
decided to leave this provision the same
as in the proposed rule. As noted above,
the Working Group had discussed this
issue at length in past meetings and
reached the same conclusion. Absent
any new information or justification to
support a change, neither FRA nor the
Working Group saw any reason to
change its position. FRA thinks, at this
time, that it is most appropriate that
FRA allow the use of the electronic
headset technology but not require it.
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
FRA has previously examined the
issue of temperature control in
locomotive cabs and came to the
conclusion that it was not possible to
mandate use of air conditioning during
hot periods of the year. In reporting
these findings to the RSAC, FRA did
call attention to the importance of
temperature control and urge railroads
to include full temperature control in its
specifications for new locomotives and
to maintain the systems in service.
Absent firm requirements that
temperature control be provided, and
given the long hours that employees
work in the cab setting, FRA agrees it is
not practical to require use of headsets
in the normal course of business.33
In sum, FRA will not require a
railroad to offer electronic (or radio)
communication headsets (wired or
wireless), however FRA does not intend
to discourage railroads from using this
technology. Railroads are welcome to
use this technology if they so wish. Of
course, if a railroad elects to
accommodate an employee with hearing
loss by providing that employee with an
electronic headset, the railroad would
also need to provide the other regularly
assigned crew members with compatible
equipment. Because of the safety need
attendant to good intra-crew
communication, this is an
accommodation that would be
particularly appropriate where one
member of the crew has known hearing
loss and the locomotive is an older
model known to have significant
background noise. In this case, all crew
members should cooperate in utilization
of the technology. As a related aside,
FRA notes that, with respect to crew
members with documented hearing loss,
this rule does not vary or add to the
railroad’s duties under the Americans
with Disabilities Act.
rmajette on PROD1PC67 with RULES2
G. Location of the Train Horn
Several individual commenters, all
railroad employees, expressed concern
about the location of the train horn. One
commenter asserted that the location of
the train horn was unsafe with respect
to hearing protection for personnel on
the train. Another commenter suggested
that railroads with cab-roof-mounted
horns should relocate their horns to the
back of the cab on the engine
compartment hood. This commenter
also stated that cab-mounted horns
create a greater safety risk, because they
reduce the communication between the
engineer and conductor in the cab and
33 See Pilcher, J., Nadler, E., and Busch, C.,
‘‘Effects of Hot and Cold Temperature Exposure on
Performance: A Meta-Analytic Review,’’
Ergonomics, vol. 45, no. 10, 682–688.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
because they decrease the crew’s ability
to hear the radio. Yet another asserted
that the ‘‘biggest cause of cab noise [is]
the horns mounted on top of the
locomotive cab on all the older engines’’
and recommended that the new rule
‘‘include mandatory relocation of the
roof mounted horns to the long hood
area where all new locomotive horns are
mounted.’’
FRA has a long history of working
with the railroad industry on the issue
of locomotive horn noise, both in the
context of locomotive cab working
conditions and of unwanted noise in
communities through which active
railroad lines pass. FRA has addressed
train horn issues in depth through the
rulemaking proceedings for its Final
Rule on the Use of Locomotive Horns at
Highway-Rail Grade Crossings (‘‘Train
Horn Rule.’’) 34 The issues ranged from
setting maximum horn sound output
levels to limiting horn sound
(emanating to the side of the
locomotive) to relocating the horn on
locomotives. In order to fully consider
these issues, FRA held a Technical
Conference on Locomotive Horns during
the comment period to the NPRM (for
the Train Horn Rule), conducted tests
through the Volpe National
Transportation Systems Center, and
reviewed the results of Transport
Canada tests.
Research in support of the Train Horn
Rule confirmed that placing the horn in
the middle of the locomotive results in
the need to have louder output from the
source in order to achieve adequate
warning to motorists, which, in turn,
causes concern in communities along
the rail line. However, the placement of
the horn in the middle of the locomotive
clearly reduces the impact on crews.
Research conducted in Canada suggests
that front-mounted horns may be more
effective (than center-mounted horns) in
providing warning under dynamic
conditions.
In the Train Horn Rule, FRA decided
not to mandate the relocation of the
train horn. FRA explained that further
research would be necessary before
making any further regulatory changes.
FRA continues to research these issues.
For purposes of this rulemaking, the
issue is whether employee hearing is
adequately protected. The provisions of
this rule will achieve that result.
Accordingly, FRA, with the agreement
of the RSAC Working Group, is not
mandating that railroads locate the train
horn in any particular location.
34 See FRA Docket No. 1999–6439, including 65
FR 2230 (January 13, 2000), 68 FR 70586 (December
18, 2003), and 70 FR 21844 (April 27, 2005).
PO 00000
Frm 00015
Fmt 4701
Sfmt 4700
63079
H. FRA Report to Congress
In the NPRM, FRA discussed the
noise chapter of its 1996 Report to
Congress.35 The AAR commented on the
data relied upon for the Report to
Congress. The AAR asserted that there
were problems with that data, that is
‘‘that FRA made time weighted
measurements using an eight hour
metric, but then reported the results as
a percent of dose using a twelve hour
metric as a reference. This resulted in
overstating the percentage of exposures
that exceeded the permissible exposure
limit and also overstating the percentage
of exposures that exceeded the OSHA
threshold for hearing conservation
programs.’’ The AAR believes that it
‘‘could lead to overestimating the degree
to which train crews are exposed to
sound levels.’’
The AAR noted that FRA had
acknowledged in the preamble
discussion to the NPRM that the Report
to Congress was ‘‘not rigorous.’’
However, the AAR wants FRA to
publicly correct the averages and
percentages in the Report to Congress
that were affected by these errors. The
information that FRA endeavored to
summarize in the Report is now more
than a decade old and could not, even
if drawn from a representative sample of
assignments (which it was not), and
even if re-characterized as AAR
suggests, be used to describe current
industry conditions in any quantitative
way. However, the Report to Congress
provides data supporting the
proposition that excessive noise doses
are possible in the worst of the older
locomotives. And, industry
representatives themselves pointed out
during RSAC Working Group
deliberations that occasional excessive
doses are possible in new locomotives
under challenging conditions of
operations (e.g., windows open, many
grade crossings, heavy loading).
Industry noise monitoring has
confirmed these points (see data
reported in Appendix C to the
Regulatory Impact Analysis for this final
rule), and all parties agree that a hearing
conservation approach is warranted to
address potential exposures.
Accordingly, FRA, having responded
repeatedly and candidly to criticisms of
the Report, sees no purpose relevant to
this rulemaking for revisiting the details
of the Report.
I. Regulatory Impact Analysis
The doseBusters Company submitted
comments on the Regulatory Impact
Analysis (RIA) that FRA prepared to
35 See
E:\FR\FM\27OCR2.SGM
69 FR 35146, 35149 (June 23, 2004).
27OCR2
rmajette on PROD1PC67 with RULES2
63080
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
accompany the NPRM. FRA has
responded to these comments in the
final economic analysis, of which a
copy can be found in the docket. FRA
is addressing one comment here,
however, because it is related to the
reasons that FRA issued this rule and
not just the RIA.
The doseBusters Company
commented on Appendix C of the RIA.
Appendix C of the RIA cited railroad
data that FRA had reviewed before
issuing the rule. A Class 1 railroad has
gathered and submitted to FRA data on
employee noise exposure in the
locomotive cab. FRA reviewed that data,
as described in Appendix C to the RIA.
The doseBusters Company felt that the
data readings from the dosimeter were
flawed because of the placement of the
dosimeter microphones during testing
(i.e., the microphones were placed at
different locations—at the collar lapel,
ball cap, or shoulder). The doseBusters
Company asserted that using different
microphone locations could cause
substantial errors in the data.
The doseBusters Company also
disagreed with FRA’s conclusions from
the testing about the risk of NIHL. The
doseBusters Company stated that the
results from the noise sampling
represented the average number of
workers overexposed to noise on any
particular day, not the actual number of
workers that may be overexposed over
time. The doseBusters Company
explained that, based on similar
exposure data that they collected on
underground coal miners, they estimate
that nearly twice the number of railroad
workers (than FRA identifies) are
overexposed to noise.
FRA does not believe that the
dosimeter data is flawed, and FRA
believes that it can rely on this data
which it received from a Class 1
railroad. FRA believes that the primary
objective of this data collection was met
placing the microphone near the
employee’s ear. It is widely accepted
that, as long as the dosimeter
microphone is located in the employee’s
hearing sphere (i.e., a sphere with a twofoot diameter surrounding the head),36
the tester will get a reasonable
representation of the employee’s noise
exposure. In addition, FRA notes that
this data was collected from field
surveys, not a controlled laboratory
study. As such, small variations in the
microphone testing location may be
expected. FRA also notes that, out of
512 valid samples, 17 samples included
36 This definition comes from Appendix III(A),
‘‘Instruments Used to Conduct a Noise Survey’’ of
OSHA’s Technical Manual. See https://www.
osha.gov/dts/osta/otm/noise/exposure/
instrumentation.html#dosimeter.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
a comment about the microphone
location. In addition, no structural
errors were observed in the data. As the
variance in microphone location
appears to be small from the comments,
the error introduced by this variance is
likely to be small as well. A small
amount of error would not invalidate
the study results.
The data displayed in the two tables
in Appendix C to the RIA, Locomotive
Cab TWA(80) Measurements and
Locomotive Cab TWA(90)
Measurements, were a simple count of
the number of employees that fell below
or above the OSHA standards. The TWA
or number of employees was not
arithmetically averaged. FRA agrees that
a longitudinal study would have
provided additional information on
which employees were overexposed to
noise and how their noise exposure
changed over time. FRA notes that no
new data was gathered for the analysis
in Appendix C; rather, a previouslyconducted study provided a cost
effective source of data. FRA feels that
the data review provides a good
indication of the number of employees
overexposed to noise in those
environments in which the noise
sampling was conducted, given that
railroad routes and schedules tend to
stay fairly constant. With similar work
activities performed over time, the noise
exposure can be expected to
approximate the noise exposure
measured in the study.
Without further information, FRA is
uncertain whether the coal mining
example cited by the doseBusters
Company applies to the railroading
environment. There are likely many
differences between the coal mining
environment and the railroading
environment. For example, the noise
sources, noise duration, sound
frequencies, and reflective
characteristics of the surroundings may
all be different. Although FRA finds the
coal mining comparison to be
interesting anecdotally, there is no
information presented that indicates
how noise exposure in an underground
coal mine correlates with noise
exposure in a railroad cab.
V. Section-by-Section Analysis
This section-by-section analysis
explains the provisions of the final rule.
A number of the issues and provisions
of the final rule have been discussed
and addressed in the preceding
discussions. Accordingly, the preceding
discussions should be considered in
conjunction with those below and will
be referred to as appropriate.
PO 00000
Frm 00016
Fmt 4701
Sfmt 4700
Part 227—Occupational Noise Exposure
Subpart A—General
Section 227.1 Purpose and Scope
This section identifies the purpose
and scope of this part. This is a general
provision. Section 227.1(a) provides that
the purpose of this part is to protect the
occupational health and safety of
employees involved in specified
railroad activities and/or operations.
More specifically stated, the purpose of
this part is to protect the hearing of
individuals who experience their
primary noise exposure in the
locomotive cab. Hearing loss occurs
cumulatively over time and thus, the
purpose of this rule is to protect
individuals over the span of their
railroad career. Section 227.1(b) states
that this part prescribes minimum
Federal health and safety noise
standards for locomotive cab occupants.
FRA did not receive any comments on
this section, and so FRA did not make
any changes based on public comments
or RSAC Working Group discussions.
However, FRA did make a few minor
changes in order to clarify this section.
FRA revised the language in § 227.1(b)
to reflect the fact that the rule provides
‘‘noise standards for locomotive cab
occupants,’’ not general ‘‘health and
safety standards for specified workplace
safety subjects.’’
Section 227.3 Application
This section identifies the
applicability of this part and states that
part 227 will apply to all railroads and
contractors to railroads. This section
identifies five exceptions. First, this part
will not apply to railroads that operate
only on track inside an installation that
is not part of the general railroad system
of transportation. Second, this part will
not apply to rapid transit operations in
an urban area that are not connected to
the general railroad system of
transportation. Aside from the exception
noted below, this part will apply to
rapid transit operations in an urban area
that are connected to the general
railroad system.
Third, this part will not apply to rapid
transit (light rail) operations in an urban
area that are connected to the general
system and operate under a shared use
waiver. This exception is a departure
from the proposed rule, and one that
was decided upon after the RSAC
consensus. These operations are
provided using electrical powered or
diesel powered light rail vehicles. Most
of these systems operate as streetrunning trolleys and over track
segments shared with conventional
railroads using the approach referred to
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
as temporal separation. FRA has
attempted to maintain consistency in
sorting out those matters that FRA
should regulate (because of interface
with conventional railroads) and those
that the Federal Transit Administration
should regulate (under their State Safety
Oversight program). FRA has used the
waiver process to implement this
arrangement, following the general
principles set forth in FRA’s relevant
policy statements. See 49 CFR part 209,
Appendix A ‘‘Statement of Agency
Policy Concerning Enforcement of the
Federal Railroad Safety Laws’’ and 49
CFR part 211, Appendix A ‘‘Statement
of Agency Policy Concerning Waivers
Related to Shared Use Trackage or
Rights-of-Way by Light Rail and
Conventional Operations.’’
With the passage of time, FRA and the
affected transit authorities have found
this complex of issues increasingly
unwieldy. FRA believes that where FRA
is issuing or revising a regulation,
matters are greatly simplified both for
the regulated entity and for FRA, if FRA
provides for appropriate exceptions
outright. This is such a case. Light rail
operations are typically conducted
using equipment designed for passenger
and operator comfort, and FRA has
received no information that any shared
use light rail operation is affected by a
serious noise exposure problem.
Further, to the extent a transit authority
needs to address hearing conservation
issues among its employees, there is no
reason to single out just the employees
operating on the general rail system.
Finally, from a practical standpoint,
most shared use operations involve line
segments not under FRA jurisdiction,
and it would make no sense to bifurcate
hearing conservation between the time
the trolley operator is on the shared use
segment and the time the trolley
operator is on the street running
segment. Accordingly, FRA has
provided for an appropriate exception
in this final rule.
Fourth, this part will not apply to
railroads that operate tourist, scenic,
historic, or excursion operations,
whether they are on or off the general
railroad system of transportation. The
term ‘‘tourist, scenic, historic, or
excursion operations’’ is defined in
§ 227.5 to mean ‘‘railroad operations
that carry passengers, often using
antiquated equipment, with the
conveyance of the passengers to a
particular destination not being the
principal purpose.’’ Congress has
directed that, in issuing safety rules,
FRA take into account the unique
financial, operational, and other factors
that may apply to such railroads. 49
U.S.C. 20103(f). For those operations,
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
FRA has considered that they are often
seasonal and generally use older or
historic equipment.
In the NPRM, FRA solicited public
comment on how to handle the
employees covered in these types of
operations but did not receive any
comments. FRA has no evidence that
employees and volunteers providing
this service are at serious risk of hearing
loss. Accordingly, FRA will continue to
exempt these operations from this
regulation. FRA notes, however, that
operations utilizing steam locomotives
with extended duty periods for
locomotive engineers and firemen
should make vigorous use of hearing
protection to reduce crew doses to
acceptable levels.
Fifth, this part will not apply to
certain foreign railroad operations.
Specifically, it will not apply to
operations where employees of foreign
railroads have a primary reporting point
outside the U.S. but are operating in the
U.S., and they satisfy the following
requirements: (1) The government of the
country in which the foreign railroad is
based must have established
requirements for hearing conservation
for railroad employees in that
jurisdiction; (2) the foreign railroad
must undertake to comply with those
requirements while operating within the
U.S.; and (3) the Associate
Administrator for Safety must determine
that the foreign government
requirements are consistent with the
purpose and scope of part 227. A
‘‘foreign railroad’’ refers to a railroad
that is incorporated in a place outside
the United States and is operated out of
a foreign country but operates for some
distance in the U.S. (e.g., Canadian
National Railroad). Employees excepted
from application would be those
employees of a foreign railroad whose
primary reporting point is in Canada
and Mexico.
The Associate Administrator’s
evaluation and determination would
only be made at the request of the
foreign railroad. As a practical matter,
this evaluation could be accomplished
at the request of an association of
foreign railroads (e.g., the Railway
Association of Canada), and the
exception would then be available to all
railroads of that country entering the
U.S.
The Associate Administrator will
determine whether the foreign
government’s requirements are
consistent with the purpose and scope
of this part, specifically that the purpose
of the foreign government’s
requirements are ‘‘to protect the
occupational health and safety of
employees whose predominant noise
PO 00000
Frm 00017
Fmt 4701
Sfmt 4700
63081
exposure occurs in the locomotive cab.’’
This standard does not require a finding
of equivalence in terms of program
effectiveness, because making such a
finding would require an estimation of
incremental hearing loss over the
working life of specific populations and
that is scientifically impracticable.
Further, more important than precise
equivalence is the integrity of each of
the North American governments’
programs. Employees and program
managers need to know what rules
apply and need to be able to carry out
those programs without the confusion
that would be inherent in changing the
rules at international boundaries. FRA
will request similar treatment of U.S.
railroads operating into Canada and
Mexico, in order to achieve the goal of
harmonization.
FRA did not receive any comments on
this section, and so FRA did not make
any changes based on public comments
or RSAC Working Group discussions.
However, FRA did make two minor
changes on its own. FRA realized that
it had failed to state in § 227.3(a) that
the rule covers contractors in addition
to railroads. While the preamble to the
NPRM included such a statement,37 the
regulatory text did not. The regulatory
text now indicates that this rule covers
railroad contractors. FRA also realized
that there was a drafting inconsistency
in § 227.3(b)(4) and corrected it. In order
to provide for consistency within the
section, FRA started § 227.3(b)(4) with
the term ‘‘railroad operations’’ instead
of the term ‘‘employees.’’ 38
Section 227.5 Definitions
This section contains definitions for
key terms. The definitions are set forth
alphabetically. FRA intends these
definitions to clarify the meaning of
terms as they are used in the text of the
final rule.
Many of these definitions have been
taken from the standards issued by
OSHA and MSHA and the
recommendations issued by NIOSH and
the American Conference of
Governmental Industrial Hygienists
(ACGIH). These are definitions that are
widely used by noise professionals. This
includes definitions such as
‘‘Audiologist,’’ ‘‘Decibel,’’ ‘‘dB(A),’’
‘‘Hertz,’’ ‘‘Medical Pathology,’’ and
‘‘Otolaryngologist.’’ This section also
contains some basic definitions that are
standard to several of FRA’s regulations.
This includes definitions such as
37 See
69 FR 35157.
language in the NPRM had provided: ‘‘This
part does not apply to * * * Employees of a foreign
railroad whose primary reporting point is outside
the U.S. while operating trains or conducting
switching operations in the U.S., if * * *’’
38 The
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63082
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
‘‘Administrator,’’ ‘‘FRA,’’ ‘‘Person,’’
‘‘Railroad,’’ and ‘‘Tourist, scenic,
historic, or excursion operations.’’
Several of the definitions, however, are
new or fundamental concepts that are
discussed below.
The term ‘‘Action Level’’ has been
revised since the proposed rule. FRA,
with the agreement of the RSAC,
changed the upper limit for noise
measurements from 130 dB(A) to 140
dB(A). FRA also made this change in
§ 227.103(c)(1). See § 227.103(c)(1) for a
discussion of the revision.
The term ‘‘Audiogram’’ has been
added to the final rule. The Council for
Accreditation in Occupational Hearing
Conservation (CAOHC) and AAA
recommended that FRA add this
definition. Since FRA uses this term
throughout the rule, FRA decided, and
the RSAC Working Group agreed, that it
is appropriate for FRA to provide a
definition.
The term ‘‘Audiologist’’ has been
revised from the proposed rule. Several
commenters suggested that FRA revise
the definition, and most suggested
alternative definitions. ASHA suggested
a revised definition and explained it
would be consistent with that contained
in ASHA’s Scope of Practice in
Audiology (2004). An individual
commenter suggested an almost
identical definition, except that it
contained a different certification and
licensing requirement. AAA also
submitted a revised definition,
explaining that their recommended
definition came from the Social Security
Act 39 and by using it, FRA would foster
uniformity among Federal health
programs. Finally, an individual ASHA
member requested that FRA ensure that
the audiologists are fully educated and
trained. In particular, she suggested that
an audiologist should have at least a
master’s degree (or Ph.D. or Au.D),
experience and training in hearing
conservation, and certification from a
national organization (and state
licensure).
RSAC Working Group members
expressed concerns about certain
aspects of the comments. One member
was concerned that it might be
unreasonable to expect audiologists to
have masters or doctoral degrees,
however the other members pointed out
that the vast majority of audiologists
already have either masters or doctoral
degrees. Another member was
concerned about linking audiologist
certification to a single organization. (In
the NPRM, FRA had required ASHA
certification for audiologists). Members
were concerned that this might present
39 See
42 U.S.C. 1395x(ll)(3)(b).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
problems if that organization went out
of existence or if a new licensing
organization was created. As a result,
the Working Group members decided
not to link licensing to any one
organization.
In addition, one railroad
representative explained that he had
reservations about AAA’s
recommendation that the audiologist be
licensed in the state in which the
audiologist furnishes service. The
railroad representative explained that
since railroads operate through several
states, railroad audiologists will provide
services in many states. It would be
impracticable to expect railroad
audiologists to become licensed in each
state in which the railroad operates.
FRA agrees that it would be
impracticable to impose such a burden
on railroads, and thus FRA did not
adopt AAA’s recommendation. OSHA’s
rule did not require licensure in the
state in which the audiologist furnishes
service. FRA also does not have such a
requirement. Moreover, FRA does not
expect that this will present any
problems. As a general matter, FRA
expects that audiologists will perform
broad duties associated with the hearing
conservation program. Presumably, the
audiologist will perform such duties
from the state in which the railroad is
headquartered and where the
audiologist is licensed. Furthermore,
FRA’s experience has indicated that
most railroad audiometric testing tends
to be conducted by contractor
technicians hired by the railroad. As
such, audiologists are unlikely to travel
into the field in mobile vans (i.e.,
potentially other states) and provide
audiological services.
As a related matter, one Working
Group member suggested that FRA
remove the provision in the second half
the definition of audiologist, which sets
the parameters for states which do not
license audiologists. The Task Force
member asserted that the provision was
unnecessary, since the revised rule only
requires audiologists to be licensed in
any one state, and so therefore there was
no need to make provisions for states
without audiologist licensing
requirements. The Task Force, as a
whole, however, decided that removing
this provision could create a problem
for shortlines. A shortline operating in
only one state which did not have
licensing requirements for audiologists
might have difficulty finding
audiologists. With the provision
removed, the rule would require
audiologists to have a state license, and
yet if the state didn’t require
audiologists to get licensed, it would be
likely that most, if not all, the
PO 00000
Frm 00018
Fmt 4701
Sfmt 4700
audiologists near the shortline
operations would not have state
licenses. Accordingly, FRA decided to
retain in the definition of audiologist a
provision for states which do not license
audiologists.
The definition in the final rule is a
hybrid of the above recommendations. It
combines the description of the tasks
from the ASHA (i.e., ‘‘a professional
who provides comprehensive diagnostic
and treatment/rehabilitative services for
auditory, vestibular, and related
impairments’’) with the qualification
requirements from AAA (i.e., requires
(1) a masters or doctoral degree and (2)
a state license or alternate state
certification). (Note also that FRA has
formatted the qualification requirements
slightly different than AAA.) This
hybrid definition addresses both
commenters’ concerns that audiologists
are adequately qualified, as well as
Working Group members’ concerns that
railroads are able to comply with the
rule.
The term ‘‘Audiometry’’ has been
added to the final rule. The Council for
Accreditation in Occupational Hearing
Conservation (CAOHC) and AAA
recommended that FRA add this
definition. Since FRA uses this term
throughout the rule, FRA decided, and
the RSAC Working Group agreed, that it
is appropriate for FRA to provide a
definition.
The term ‘‘Continuous Noise’’ is
intended to clarify the use of the word
in § 227.105. The term is used in
OSHA’s standard,40 though OSHA does
not include a definition in its definition
section. FRA decided to add a definition
for the sake of clarity.
The term ‘‘Employee’’ refers to
individuals engaged or compensated by
a railroad, as well as to contractors to a
railroad. One of FRA’s objectives in
covering contractors is to promulgate
standards that are applicable to all those
individuals that are exposed to the
specified levels of locomotive cab noise.
Whether an individual is paid by a
railroad or a contractor is irrelevant. The
most important issue is preventing
hearing loss. FRA holds no position on
the practice of a railroad contracting
work out to another company, but FRA
strongly believes that contract
employees are entitled to the same level
of safety as railroad employees. To the
extent that contract employees work
under the circumstances presenting the
noise hazards addressed in this
regulation, those contractors must be
protected.
The term ‘‘Exchange Rate’’ refers to
the change in sound levels which would
40 See
E:\FR\FM\27OCR2.SGM
29 CFR § 1910.95(b)(2).
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
require halving or doubling the
allowable exposure time to maintain the
same noise dose. FRA has set the
exchange rate for this regulation at 5 dB.
As previously discussed, both OSHA
and MSHA also use a 5 dB exchange
rate. Regarding this definition and the
definition of ‘‘Time-Weighted Average,’’
several commenters suggested that FRA
instead adopt a 3 dB exchange rate. For
a discussion of those comments, see
section IV(D) above.
The term ‘‘Hearing Protector’’ refers to
‘‘any device or material, which is
capable of being worn on the head,
covering the ear canal or inserted in the
ear canal; is designed wholly or in part
to reduce the level of sound entering the
ear; and has a scientifically accepted
indicator of its noise reduction value.’’
At the suggestion of NHCA and with the
consensus of the RSAC Working Group,
FRA added the words ‘‘covering the ear
canal opening’’ after the phrase ‘‘worn
on the head’’ and ‘‘inserted’’ before ‘‘in
the ear canal.’’ FRA believes that these
words make the definition more clear.
In the NPRM, FRA sought comment
on inclusion of the phrase ‘‘has a
scientifically accepted indicator of its
noise reduction value.’’ The RSAC
Working Group had discussed this
phrase during the proposed rule stage
and had considered several variations.
Certain Working Group members had, at
one point, thought the phrase was too
general and provided too much leeway.
They wanted that phrase replaced with
a requirement to use a specific
indicator, the Noise Reduction Rating
(NRR). FRA sought comment from the
public, asking whether FRA should use
a general description for an indicator,
the NRR, or some other specific
indicator.
A few commenters, including Aearo
Company, ASHA, and Theresa Schulz,
responded to FRA’s request for
comments, explaining that they felt that
the phrase was too vague. Aearo
Company and ASHA suggested that
FRA should mandate the use a specific
rating(s) for enforcing hearing protector
attenuation and include that rating(s) in
this definition. They noted that there
were several options, including NRR,
NRR (SF), and Method B, though did
not assert a preference for any
individual one. Similarly, Theresa
Schulz noted that there are new
products and testing methods, including
Fit Testing, Method B and Predicted
Personal Attenuation Rating (P-PAR),
that have been accepted scientifically
and that provide real-world testing of
attenuation.
The AAR also responded to FRA’s
request for comments, noting its support
for the proposed definition of HP. The
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
AAR wrote that railroads should not be
limited to the NRR for evaluating HP
attenuation, because it does not provide
the flexibility to employ current science.
The AAR explained that there is current
technology, such as in-the-ear
microphones, which measure actual
attenuation, and that technology would
not be available if railroads were limited
only to the NRR.
The Working Group discussed these
comments and expressed concern that
replacing that phrase with the NRR (or
any other specific indicator) would
ultimately be limiting. It would prevent
the industry from availing themselves of
advances in science and technology. By
not listing any particular indicator, FRA
leaves it open for the development of
new standards. This is particularly
important, since the EPA is currently
working to develop a new standard.
Given that there are several possible
indicators that FRA could use and given
that there is not widespread public
support for any particular one, as well
as the fact that listing a particular
indicator might ultimately preclude the
use of new technology, FRA will not
mandate the use of any particular
indicator in the definition of hearing
protector.
The term ‘‘Noise Operational
Controls’’ is the functional equivalent of
OSHA’s term ‘‘administrative
controls.’’ 41 MSHA 42 and NIOSH 43
also use the term. FRA proposed the use
of this term in the NPRM and has
decided to retain it in this final rule.
A few commenters, including the
ASHA, Teresa Schulz, and Aearo
Company, recommended that FRA use
the term ‘‘administrative controls’’
instead of ‘‘noise operational controls.’’
They acknowledged that FRA enforces
noise operational controls differently
than OSHA, MSHA and NIOSH;
however, they thought that FRA should
use the same term as the others since the
terms are functionally equivalent. The
commenters explained that FRA should
be consistent and uniform with other
Federal agencies in order to minimize
confusion. They thought that it was
particularly important for FRA to be
clear, since OSHA and FRA share
jurisdiction over certain aspects of the
rail industry. Aearo Company also felt
that the term itself could be potentially
confusing; a newcomer might question
whether the term applies to worker
schedules since those could be thought
of as ‘‘noise operations.’’
41 See 29 CFR § 1910.95(b)(1) and 29 CFR
§ 1926.52(a).
42 See 30 CFR § 62.130.
43 See www.cdc.gov/niosh/hpterms.html for
NIOSH Common Hearing Loss Prevention Terms.
PO 00000
Frm 00019
Fmt 4701
Sfmt 4700
63083
FRA developed the term ‘‘noise
operational controls’’ in conjunction
with the RSAC Working Group during
the NPRM stage. FRA re-opened the
discussion on this matter during the
comment period, and FRA, with the
RSAC Working Group’s input, has reaffirmed its decision to use this term.
FRA uses a different term to distinguish
it from OSHA’s term. While the
definition of the two terms is identical,
the application of the two terms is
different. Administrative controls are
mandatory in OSHA’s hierarchy,
whereas noise operational controls are
optional in FRA’s hierarchy-free
scheme. FRA is using this different term
to make it clear that FRA treats noise
operational controls differently than the
way OSHA treats administrative
controls.
The term ‘‘Occasional Service’’ refers
to service of not more than a total of 20
days with one or more assignments in
a calendar year. The term is used only
once in this rule in § 227.101. Theresa
Schulz commented on this definition,
noting that it is an ‘‘important but
previously unrecognized element for a
noise standard.’’ She explained that this
provision ensures that the focus of the
HCP is on employees who are routinely
exposed to noise and therefore at higher
risk for noise-induced hearing loss.
The term ‘‘Periodic Audiogram’’ has
been revised in the final rule. The new
definition states that a periodic
audiogram is ‘‘a record of follow-up
audiometric testing conducted at regular
intervals after the baseline audiometric
test.’’ FRA made this change in response
to commenters who explained that the
NPRM incorrectly referred to
audiograms as something that is ‘‘done’’
or ‘‘conducted.’’ CAOHC, for example,
explained that an audiogram is a
document or report of audiometric
testing, and so it is not something that
is ‘‘done’’ or ‘‘conducted.’’ This new
definition corrects that inaccuracy.
The term ‘‘Professional Supervisor of
the Audiometric Monitoring Program’’
was added to the final rule. This
definition arose in the context of
qualifications for individuals who
perform audiometric tests. See
§ 227.109(c) for a discussion of this term
and of qualifications, in general.
The term ‘‘Qualified Technician’’ was
added to the final rule. This definition
was not a product of the RSAC
consensus. FRA added this definition in
order to simplify the rule. Rather than
restate the definition several times in
the rule, FRA states it in this definition
section once and then uses the term
throughout the rule. For a discussion of
the comments that FRA received about
E:\FR\FM\27OCR2.SGM
27OCR2
63084
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
technicians, see the section-by-section
analysis for § 227.109(c).
The terms ‘‘Sound Level’’ and ‘‘Sound
Pressure Level’’ can be used
interchangeably. The definition comes
from OSHA’s regulation. See Appendix
I to 29 CFR 1910.95. OSHA’s regulation,
in addressing SLOW time response,
referenced a now-outdated ANSI
standard, S1.4–1971 (R1976). FRA
updated that standard with the current
standard, ANSI S1.43–1997 (R2002),
‘‘Specifications for IntegratingAveraging Sound Level Meters.’’44
The term ‘‘Time-weighted-average
eight-hour (or 8-hour TWA)’’ includes a
reference to the 5 dB exchange rate.
Regarding this definition and the
definition of ‘‘Exchange Rate,’’ several
commenters suggested that FRA instead
adopt a 3 dB exchange rate. For a
discussion of those comments, see
section IV(D) above.
Section 227.7
Preemptive Effect
This section informs the public of
FRA’s intention and views on the
preemptive effect of the rule. The
preemptive effect of this rule is broad,
as its purpose is to create a uniform
national standard. Section 20106 of
Title 49 of the United States Code
provides that all regulations prescribed
by the Secretary related to railroad
safety preempt any State law,
regulation, or order covering the same
subject matter, except a provision
necessary to eliminate or reduce an
essentially local safety hazard that is not
incompatible with a Federal law,
regulation, or order and that does not
unreasonably burden interstate
commerce. Exceptions would be rare. In
general, 49 U.S.C. 20106 will preempt
any State law—whether statutory or
common law—and any state regulation,
rule, or order, that concerns the same
subject matter as the regulations in this
rule. FRA received no comments on this
section and it remains the same as
proposed in the NPRM.
rmajette on PROD1PC67 with RULES2
Section 227.97
Penalties
This section identifies the civil
penalties that FRA may impose upon
any person, including a railroad or an
independent contractor providing goods
or services to a railroad, that violates
any requirement of this part. These
penalties are authorized by 49 U.S.C.
21301, 21302, and 21304. This penalty
provision parallels penalty provisions
included in numerous other safety
regulations that FRA has issued.
44 For a general discussion on the use of ANSI
standards in this rule, see the section-by-section
analysis for § 227.103(c)(2).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
Any person who violates any
requirement of this part or causes the
violation of any such requirement will
be subject to a civil penalty of at least
$550, and not more than $11,000, per
violation. Civil penalties may be
assessed against individuals only for
willful violations. Where a grossly
negligent violation or a pattern of
repeated violations creates an imminent
hazard of death or injury to persons, or
causes death or injury, a civil penalty
not to exceed $27,000 per violation may
be assessed. In addition, each day will
constitute a separate offense.
Furthermore, a person may be subject to
criminal penalties under 49 U.S.C.
21311 for knowingly and willfully
falsifying reports required by these
regulations. FRA believes that the
inclusion of penalty provisions for
failure to comply with this regulation is
important in ensuring that compliance
is achieved. FRA received no comments
on this section and it remains the same
as proposed in the NPRM.
With respect to the penalty amounts
contained in this section, the Federal
Civil Penalties Inflation Adjustment Act
of 1990 (Inflation Act), Pub. L. 101–410
Stat. 890, 28 U.S.C. 2461 note, as
amended by the Debt Collection
Improvement Act of 1996 Pub. L. 104–
134, April 26, 1996, requires agencies to
periodically adjust by regulation each
maximum civil monetary penalty or
range of minimum and maximum civil
monetary penalties. By final rule
effective June 28, 2004,45 FRA adjusted
its civil monetary penalties. In this final
rule, FRA has included those adjusted
penalty amounts.
Section 227.11 Responsibility for
Compliance
This section clarifies FRA’s position
that the requirements contained in this
rule are applicable not only to any
‘‘railroad’’ subject to this part but also
to any ‘‘person’’ (as defined in § 227.5)
that performs any function required by
this rule. Although various sections of
the rule address the duties of a railroad,
FRA intends that any person who
performs any action on behalf of a
railroad or any person who performs
any action covered by this rule is
required to perform that action in the
same manner as required of a railroad or
be subject to FRA enforcement action.
FRA received no comments on this
section and it remains the same as
proposed in the NPRM.
Section 227.13 Waivers
This section sets forth the procedures
for seeking waivers of compliance with
45 See
PO 00000
69 FR 30591 (May 28, 2004).
Frm 00020
Fmt 4701
Sfmt 4700
the requirements of this part. Requests
for such waivers may be filed by any
interested party. In reviewing such
requests, FRA conducts investigations to
determine if a deviation from the
general criteria can be made without
compromising or diminishing rail
safety. This section is consistent with
the general waiver provisions contained
in other Federal regulations issued by
FRA. FRA received no comments on
this section and so FRA left it the same
as proposed in the NPRM.
Section 227.15
Information Collection
This section notes the provisions of
this part that will be submitted to the
Office of Management and Budget
(OMB) for compliance with the
Paperwork Reduction Act of 1995. See
44 U.S.C. 3501 et seq.
Subpart B—Occupational Noise
Exposure for Railroad Operating
Employees
Section 227.101
Applicability
Scope and
This section identifies the individuals
to whom this rule will apply. FRA did
not receive any comments on this
section, and so FRA did not make any
changes based on public comments or
RSAC discussions. However, FRA did
make a few minor changes in order to
clarify this section. FRA changed the
name of this section, from ‘‘scope’’ in
the NPRM to ‘‘scope and applicability’’
in the final rule. FRA believes that the
revised name more accurately reflects
the content of this section. In
§ 227.101(a), FRA added the words
‘‘noise-related,’’ to clarify that this
subpart applies to noise-related working
conditions, not just working conditions
in general. Additionally, at the end of
§ 227.101(a)(1), FRA added the clause
‘‘subject to a railroad’s election in
paragraph (3) of this section.’’ This
clarifies the interplay between
paragraphs (a)(1) and (a)(3) of this
section. FRA believes these changes
make the rule more clear and accurate.
Section 227.101(a)(1) provides that
this rule covers employees who
regularly perform service subject to the
provisions of the hours of service law
governing ‘‘train employees.’’ See 49
U.S.C. 21101(5) and 21103. This refers
to employees who are engaged in
functions traditionally associated with
train, engine, and yard service; for
example, engineers, conductors,
brakemen, switchmen, and firemen. In
general, these employees encounter
their predominant occupational noise
exposure in the locomotive cab, and
therefore, FRA plans to appropriately
tailor the noise monitoring and noise
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
testing programs in this section to
address the exposure that these
employees experience.
With respect to the term ‘‘regularly’’
in § 227.101(a)(1), FRA intends to cover
individuals who perform some level of
work in a locomotive cab. In making
this assessment, the railroad should
consider an employee’s work over the
period of a year. FRA would like
railroads to think about how they use
their workforces, i.e., take a serious look
at the work that their employees
perform, determine which employees
will experience potentially hazardous
noise exposure in the cab, and then
place those employees in a hearing
conservation program.
Given the nature of the railroad
industry, FRA is aware that some of
these employees may not always
experience their predominant noise
exposure in the cab. Due to
longstanding labor practices in the
railroad industry concerning seniority
privileges and concerning the ability of
railroad employees to bid for different
work assignments, these railroad
employees are likely to change jobs
frequently and to work for extended
periods of time on assignments that
involve duties outside the cab. For
example, an employee might start the
year in a job that involves mostly
outside-the-cab work, spend three
months working primarily inside the
cab, and then return to outside-the-cab
work for the rest of the year. In this type
of situation, FRA’s regulations can
govern the noise exposure of this
employee throughout the year despite
the fact that the employee only spent
three months inside the cab. This
employee can be covered by FRA’s
regulations, because he spent time, no
matter how little, in a locomotive cab.
Under an alternative scope provision
that the RSAC Working Group
considered at the NPRM stage, OSHA’s
regulations would have applied to these
employees when they were outside the
cab, and FRA’s regulations would have
applied to these employees when they
were inside the cab. The employee
would have had to switch back and
forth between OSHA’s and FRA’s
hearing conversation programs
throughout the year. FRA believes this
would have been both illogical and
unworkable.
This section identifies groups of
employees to whom this subpart does
not apply. This rule will not extend to
employees who occasionally and briefly
enter the cab. That includes employees
who move equipment only within the
confines of locomotive repair or
servicing areas protected by blue signals
(see § 227.101(a)(1)(i)) or who move
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
locomotives for distances of less than
100 feet for inspection or maintenance
purposes (see § 227.101(a)(1)(ii)). The
job assignments of these employees
usually involve consistent and
significant work outside the cab, such as
moving about on the shop floor,
working on the ground to connect the
air hoses and MU cable for locomotives,
and performing locomotive servicing
(e.g., sanding or fueling). This is why
these types of employees are being
excepted from FRA’s regulation.
Increasingly, however, inside hostling
duties are commingled with other
mechanical duties involving major
additional sources of noise exposure.
These employees would remain under
the authority of OSHA with respect to
occupational noise exposure, unless the
railroad elected to place them in the
FRA program based upon their expected
mix of assignments. (See § 227.103).
In addition, this rule will not extend
to contractors who operate historic
equipment in occasional service, as long
as those contractors have been provided
with hearing protection and are required
to use the hearing protection while
operating the historic equipment. (See
§ 227.101(a)(1)(iii)). Although these
contractors will not be in the railroad’s
HCP, it is still important that they use
HP, because they will be working in
noisy environments (e.g., historic
locomotives). Occasional service is
defined in § 227.5 and refers to service
of not more than a total of 20 days with
one or more assignments in a calendar
year. This exception will apply to all
members of the crew responsible for
operating the train. That includes, but is
not limited to, engineers, conductors,
firemen, and brakemen. When originally
raised, this exception contemplated
service only on steam locomotives;
however, FRA instead used the term
‘‘historic equipment,’’ thereby
encompassing in the definition diesel
locomotives and other antiquated
equipment typically used in tourist and
scenic operations, in addition to steam
locomotives.
FRA added this historic equipment
exception as a result of a Working
Group member’s comment during a preNPRM meeting. The member explained
that a railroad will occasionally hire a
contractor with special expertise to
operate a steam locomotive for one or
two days as part of a special excursion
operation. The member was concerned
that the railroad would have to place
those temporary, contract employees in
a hearing conservation program. At the
recommendation of the Working Group,
FRA decided to include this exception.
Pursuant to this provision, those
contractors are exempted, because they
PO 00000
Frm 00021
Fmt 4701
Sfmt 4700
63085
provide limited service and thus will
have limited exposure to noise in a
locomotive cab. Railroads should note,
however, that this provision will not
exempt regular railroad employees who
happen to perform this occasional
service on historic equipment.
FRA realizes that earlier provisions in
this rule have discussed historic
operations. In particular, § 227.3(b)(3)
excludes from this part railroads that
perform historic operations. Despite the
apparent similarity, these provisions are
different. The earlier provision excludes
railroads that operate, among other
things, historic operations, while this
provision excludes contract employees
who work for a freight railroad (such as
Union Pacific Railroad or CSX Railroad)
operating tourist, scenic, and excursion
equipment.
Section 227.101(a)(2) provides that
this rule covers any direct supervisor of
the persons described in § 227.101(a)(1)
whose duties require frequent work in
the locomotive cab.
Section 227.101(a)(3) provides that
this rule covers, at the election of the
railroad, any other person whose duties
require frequent work in the locomotive
cab and whose primary noise exposure
is reasonably expected to be
experienced in the cab, if the position
occupied by such person is designated
in writing by the railroad, as required by
§ 227.121(d). Note that, pursuant to
§ 227.101(a)(3), a railroad can elect to
cover an employee that would otherwise
be excluded by §§ 227.101(a)(1).
Section 227.101(b) provides that all
other railroad employees who are
exposed to noise hazards but are outside
the scope of this regulation will
continue to be covered by OSHA’s noise
standard, which is located at 29 CFR
1910.95. The MTA/Long Island Railroad
(LIRR) submitted comments on this
provision. LIRR believes that this rule
will cause them to administer a hearing
conservation program to a much larger
percentage of their workforce than they
currently do and that it will have a
significant monetary cost and with a
greatly increased administrative burden.
They explained that they would
probably be forced to reallocate
resources to the detriment to other
aspects of operations, which in turn,
could affect the service it provides to
the general public.
FRA believes the scope of this rule is
appropriate and is leaving it as
proposed in the NPRM. LIRR provided
no reason why the rule would
necessitate inclusion of a much larger
portion of their workforce in a HCP.
Based upon the typical cab environment
on LIRR and similar commuter
railroads, FRA does not believe that will
E:\FR\FM\27OCR2.SGM
27OCR2
63086
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
be the case. To the extent LIRR
employees are exposed above the action
level, as a Federal grantee and public
benefits corporation of the state of New
York, LIRR bears at least the same
responsibility to its employees as other
railroads. Finally, FRA notes that this
rule is the product of the RSAC, of
which railroad representatives
including APTA, were members. The
railroad representatives on the RSAC
Working Group noted that most
railroads already had HCPs and so as a
practical matter, this rule would not be
overly burdensome on railroads.
Section 227.103 Noise Monitoring
Program
Railroad noise monitoring programs
entail a system of monitoring that
evaluates employee noise exposure.
Noise monitoring is performed for one
or more of the following reasons: To
determine whether hearing hazards
exist; to ascertain whether noise
presents a safety hazard by interfering
with oral communication; to ascertain
whether noise presents a safety hazard
by impairing recognition of audible
warning signals; to identify which
employees need to be included in a
hearing conservation program; to define
and establish the amount of hearing
protection that is necessary; to evaluate
specific noise sources for noise control
purposes; and to evaluate the success of
noise control efforts.
FRA’s rule requires railroads to
develop and implement a noise
monitoring program by a specific date;
the date varies depending on the size of
the railroad. The noise monitoring
program is intended to determine
whether an employee’s exposure to
noise may equal or exceed an 8-hour
time-weighted average of 85 dB(A).
Factors which suggest that noise
exposure in the cab may meet or exceed
a TWA of 85 dB(A) include: employee
complaints about the loudness of the
noise, indications that train employees
are experiencing hearing loss, noisy
conditions that make conversation
difficult, and route-specific or
locomotive-specific factors that suggest
the possibility of an excessive noise
dose. In addition, actual workplace
noise measurements can indicate that
railroad should initiate a monitoring
program.
FRA’s noise monitoring requirements
cover noise in cabs and noise in exterior
environments in which employees work
during their work shifts. FRA’s rule
involves the monitoring of some
employees whose daily functions are
entirely outside of the cab and some
employees whose daily functions are
both inside and outside of the cab. This
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
ensures that the hearing conservation
program addresses the full noise
exposure that is experienced by
employees who are within the scope of
this rule.
Section 227.103(a) provides the
general requirement that all railroads
must develop and implement a noise
monitoring program. FRA used the
provision from OSHA’s rule as a starting
point and then tailored it to suit FRA’s
needs. FRA identifies dates by which
railroads must develop their programs.
The dates are staggered based on
railroad size, giving smaller railroads
more time and larger railroads less time
to develop a noise monitoring
program.46 FRA provides railroads with
a defined purpose for the noise
monitoring program—that is, ‘‘to
determine whether any employee
covered by the scope of this subpart
may be exposed to noise that may equal
or exceed an 8-hour TWA of 85 dB(A).’’
Note that FRA has changed the
organization of this section since the
proposed rule in order to make the rule
easier to understand, however, the
substance of the section remains the
same. FRA received several comments
about the phase-in implementation
dates found in § 227.103(a). The
comments fell on both side of the issue.
Several of the commenters, including
ASHA, AIHA, NHCA, and Theresa
Schulz, suggested that FRA has given
railroads too much time with these
implementation dates. AHSA and
several individual ASHA members
suggested that all aspects of the rule be
phased in within 12 months of the
effective date of the rule. They
explained that the Small Business
Regulatory Enforcement Fairness Act 47
(‘‘SBREFA’’) supports phase-in dates,
but only where there is no immediate
safety risk. They believe there is an
immediate safety risk for railroad
operating employees. Theresa Schulz
wrote that there is significant evidence
showing that excessive noise levels ‘‘can
impair mental processes, increase
fatigue, and increase the number of
errors, while simultaneously decreasing
vigilance.’’ NHCA suggested that FRA
give railroads 12 to 18 months to
comply with the rule. NHCA stated that
18 to 30 months appears to be an
‘‘indulgence,’’ given that ‘‘the
46 Class I, passenger, and commuter railroads
have 12 months from the effective date of this rule
to establish a noise monitoring program. Railroads
with 400,000 or more annual employee hours, but
that are not a class I, passenger, or commuter
railroad have 18 months to comply. Railroads with
fewer than 400,000 annual employee hours have 30
months to comply.
47 Pub. L. No. 104–121, 110 Stat. 857 (codified at
5 U.S.C. § 601 et seq.).
PO 00000
Frm 00022
Fmt 4701
Sfmt 4700
equipment, procedures, trained
personnel, and reporting techniques of a
noise-monitoring program have existed
for decades.’’ By contrast, LIRR,
indicated that the 12-month-period is a
short time frame and recommended that
FRA allow for 24 months instead.
FRA has decided to retain the phasein dates that FRA proposed in the
NPRM. FRA is providing smaller
operations with extra time to comply,
because FRA understands that they are
in a unique situation. Smaller
operations lack the resources,
manpower, and money of larger
operations. In addition, FRA is required,
by law, to consider the impact of its
regulations on smaller entities. SBREFA
requires agencies to employ
communication, enforcement, and
regulatory systems that consider the
unique aspects of small entities.
SBREFA specifically provides that
agencies should avoid ‘‘one size fits all’’
enforcement and regulatory programs
and should, to the extent possible,
minimize unnecessary economic
burdens. One of the SBREFA’s
suggestions is that agencies use phasein implementation dates to permit
gradual compliance where no
immediate safety risk exists, and that is
what FRA has done here.
The specific dates in this rule are
based on FRA’s assessment of the
current resources and abilities of the
railroad industry, as well as FRA’s
assessment of employee safety. FRA
believes these phase-in dates are the
most appropriate since they strike a
balance between employee safety and
the practical realities of current railroad
operations. As a practical matter, too,
many, if not most, railroads already
have hearing conservation programs in
place, and so employees will not be
completely unprotected during the
phase-in months. Furthermore, these
dates are based upon the consensus
agreement of the affected parties (e.g.,
union and railroad representatives) as
part of the RSAC. For all the reasons
discussed here, FRA has provided
phase-in implementation dates here and
in two other locations in this proposed
rule: in § 227.109(e)(2) (audiometric
testing) and § 227.119(b) (training).
Also of note regarding the phase-in
implementation dates is FRA’s use of an
alternate size standard. Rather than use
the size standard promulgated by the
Small Business Administration 48 or the
size standard adopted in FRA’s ‘‘Final
Policy Statement Concerning Entities
48 The SBA Table of Size Standards specifices
that line-haul railroads with 1,500 or fewer
employees and short-line railroads with 500 fewer
employees are considered small businesses. 13 CFR
121.201.
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Subject to the Railroad Safety Laws,’’49
FRA is using an alternate size standard
that implicitly defines a small business
as a railroad with fewer than 400,000
annual employee work hours.
Accordingly, FRA has identified three
categories of railroads and given the
smaller railroads more time to comply.
FRA sought approval from the SBA in
a January 11, 2005 letter for the use of
this alternate size standard and received
that approval from SBA Administrator
Hector V. Barreto in a May 12, 2005
letter. (Copies of the letters are included
in the docket).
FRA has decided to use this alternate
size standard for several reasons. First,
the specific safety problem at issue here
is employee health and specifically
employee hearing. An employee hours
definition is most appropriate given that
the nature of the safety issue is
protecting employee hearing. Second,
FRA can more readily identify a
railroad’s size according to annual
employee hours, because FRA collects
data related to annual employee hours.
See 49 CFR part 225. Furthermore,
FRA’s safety inspectors and industrial
hygienists have easy access to this data
through FRA’s safety data Web site. By
contrast, FRA does not maintain
updated information identifying
railroads by class. Third, FRA has
successfully used this definition in its
regulations in the past. See 49 CFR
217.9 and 49 CFR 220.11. Fourth, FRA
believes that the SBA size standard,
which would encompass 650 railroads,
would be over inclusive. FRA’s alternate
size standard encompasses 634
railroads. Section 227.103(b) discusses
sampling strategy. Aside from some
minor language changes, it is identical
to OSHA’s provision, which is found in
29 CFR 1910.95(d)(i) and (ii). Cooper
Tire commented on FRA’s statistical
approach, advocating that FRA employ
a 100 percent monitoring program.
Cooper Tire noted that 100%
monitoring technology, which did not
exist when FRA began proceedings for
this rule seven years ago, is now
available and can provide continuous
weighted eight hour noise data. Cooper
Tire explained that new technology
permits the capturing and transmitting
of data continuously. They also noted
that railroads could measure all
locomotives for compliance
automatically, thereby relieving the
railroads from having to collect the data
as proposed in the rule.
49 68 FR 24, 891 (May 9, 2003). This Policy
Statement defines a ‘‘small entity’’ as a railroad that
meets the line haulage revenue requirements of a
Class III railroad (i.e., a railroad with annual
oeprating revenue of $20 million or less).
VerDate Aug<31>2005
16:17 Oct 26, 2006
Jkt 211001
Cooper Tire’s comment is similar to
the doseBuster Company’s comment
about alternative prevention strategies.
As discussed above in section IV(B), the
doseBusters Company advocated the use
of their ESP system, which includes
continuous monitoring. FRA does not
believe it is necessary to mandate
continuous monitoring. Sampling is a
well-established and widely-accepted
statistical principle. In addition, FRA
does not believe it is appropriate to link
any requirement (e.g., continuous
monitoring) to individual commercial
products. Finally, FRA believes that the
costs of continuous monitoring would
outweigh any benefits. If railroads were
to employ continuous monitoring, their
compliance with other portions of the
regulation (e.g., recordkeeping) could be
very burdensome.
Please note that while FRA does not
require the use of continuous
monitoring, FRA also does not prohibit
its use. Railroads are free to employ
continuous monitoring if they so wish.
Section 227.103(c) specifies how
railroads should conduct noise
measurements. Section 227.103(c)(1)
requires all continuous, intermittent,
and impulsive sound levels from 80 dB
to 140 dB to be integrated into the noise
measurements. FRA has changed this
provision in the final rule by increasing
the upper limit from 130 dB to 140 dB.
In the proposed rule, FRA used an
130 dB upper limit. FRA had adopted
that limit from OSHA though with
reservation. In the NPRM, FRA
explained that, while OSHA’s 1981
general industry noise standard used a
130 dB upper limit, OSHA wrote in the
preamble that its intent was to increase
the upper limit to 140 dB as dosimeters
were improved and became readily
available.50 According to OSHA in the
preamble to the 1981 standard, the
decision to use the 130 dB upper limit
was the result of technological
limitations on sound level meters and
dosimeters. In addition, FRA explained
in the NPRM that it had looked to
OSHA’s 2002 Advance Notice of
Proposed Rulemaking (ANPRM) for a
Hearing Conservation Program for
Construction Workers,51 in which
OSHA noted that ‘‘most, if not all, of
today’s noise dosimeters and integrating
sound level meters are capable of
dynamic ranges from 80 dB to 140
dB.’’ 52-53
FRA sought comment on whether 130
dB or 140 dB was the appropriate upper
limit for calculating railroad operating
50 See
29 CFR 1910.95(d)(2)(i).
67 FR 50610 (August 5, 2002).
52 ndash;53 See 67 FR 50610, 50605 (August 5,
2002).
51 See
PO 00000
Frm 00023
Fmt 4701
Sfmt 4700
63087
employee noise dose. Several
commenters responded in support of the
140 dB upper limit, all of whom
explained that technology has improved
considerably since OSHA promulgated
its general industry standard and that
technology now supports the 140 dB
upper limit. ASHA explained that
‘‘today’s dosimeters and integrating
sound level meters are capable of
dynamic ranges from 80 dB to 140 dB,’’
and AAA explained that ‘‘modern
sound level measurement systems now
routinely integrate noise levels to 140
dB(A).’’ NIOSH made an additional
point, explaining that ‘‘impulsive-type
noise may frequently exceed 130 dB
peak SPL’’ and so ‘‘limiting
measurements to 130 dB may exclude
the most harmful events in a given
exposure and seriously underestimate a
worker’s risk of hearing loss.’’ Wilson,
Ihrig, & Associates, an acoustical
consulting firm, responded that the
upper limit should be at least 140 dB.
Only one commenter, the AAR, did
not support the 140 dB upper limit. The
AAR explained that ‘‘most AAR
members already own equipment that
was purchased to comply with existing
OSHA rules. Some of this equipment is
old enough that it will not have the
increased range.’’ Without evidence that
the expanded range would yield
benefits outweighing the costs, the AAR
thought FRA should not increase the
range.
At the RSAC Working Group meeting,
the members discussed the capabilities
of railroads with respect to this
equipment. Members acknowledged that
this change would impose neither an
administrative nor an economic burden.
Given OSHA’s statement in its 2002
ANPRM, the RSAC consensus, and the
widespread belief among commenters
that modern technology supports this
change, FRA raised the upper limit to
140 dB. FRA notes that noise
monitoring data conducted prior to this
rulemaking (i.e., with the upper limit of
130 dB(A)) is still good data.
On a related matter, Wilson, Ihrig, &
Associates submitted comments on the
lower limit. Wilson, Ihrig, & Associates
asserted that there should be no lower
limit. They explained that ‘‘there is no
practical reason for limiting the lower
range to 80 dB(A), as the levels below
this range contribute little to the total
noise dose.’’ FRA has decided not to
remove the lower limit. FRA does not
believe there is any justification
supporting such a change. Given that
there is little contribution to dose by
levels below 80 dB(A), given that
eliminating the lower level is not a
commonly accepted practice, and given
that it could potentially result in a
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63088
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
heavy financial burden (e.g., complying
with this provision might require the redesign of dosimeters, SLMs, and
iSLMs), FRA sees no reason to mandate
such a change.
Section 227.103(c)(2) specifies that
railroads shall take noise measurements
under typical operating conditions
using a sound level meter (SLM),
integrating-averaging sound level meter
(iSLM), or noise dosimeter. The
instrumentation should meet the
appropriate standard set forth by ANSI;
these standards set performance and
accuracy tolerances. An SLM used to
comply with this part shall meet ANSI
S1.4–1983 (Reaffirmed 2001),
‘‘Specification for Sound Level Meters.’’
An iSLM used to comply with this part
shall meet ANSI S1.43–1997
(Reaffirmed 2002). A noise dosimeter
used to comply with this part shall meet
ANSI S1.25–1991 (Reaffirmed 2002),
‘‘Specification for Personal Noise
Dosimeters.’’ Each instrument should be
set to an A-weighted SLOW response.
Section 227.103(c)(2), for the most
part, is adopted from FRA’s previous
noise standard (i.e., the previous
§ 229.121(d)). Note, however, that FRA
has added the ANSI standard for noise
dosimeters, updated the ANSI standard
for SLMs (from ANSI S1.4–1971 to
ANSI S1.4–1983 (Reaffirmed 2001)), and
included a reference and citation to
iSLMs. In doing so, FRA has made this
regulation more current and
comprehensive.
In conformance with Office of
Management and Budget (OMB) Revised
Circular A–119 (February 10, 1998),
FRA is using voluntary national
consensus standards here and in several
other locations throughout the rule.
FRA’s use of standards established by
other organizations such as ANSI is a
means of establishing technical
requirements without increasing the
volume of the Code of Federal
Regulations. See 1 CFR part 51. In this
final rule, FRA has used the most
current version of each ANSI standard,
however FRA understands that over
time, ANSI will revisit these standards
and likely update them. FRA intends to
regularly update the rule, most likely
through the use of technical
amendments, in order to incorporate
ANSI’s newer standards. Note that in
the NPRM, FRA had proposed to adopt
successor standards. Given the Federal
law requires that a publication
incorporated by reference be identified
by its title, date, edition, author,
publisher, and identification number,
FRA amended this final rule to
incorporate the current standards only.
See 1 CFR 51.9(b)(2).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
While the rule provides that a railroad
may use either a noise dosimeter, SLM,
or iSLM to conduct noise
measurements, it also permits a railroad
to use any combination of those
instruments. Using several instruments
helps to develop a more complete
picture of the noise environment,
because the instruments provide
different information. A SLM and an
iSLM measure the sound levels at fixed
locations in the cab and during transient
events (e.g., application of the alerter,
brakes, or horn). They also characterize
the emissions of suspected noise
sources (e.g., vibrating panels). A noise
dosimeter and an iSLM measure an
employee’s overall noise exposure. An
iSLM is particularly useful, because it
characterizes the contribution of
transient events to an employee’s
overall dose. A noise dosimeter, which
is worn by the employee, is useful
because it accumulates all the noise
exposure data from an employee’s work
shift. From that, a tester can determine
an employee’s noise dose during a work
shift.
Section 227.103(c)(3) specifies that all
instruments used to measure employee
noise exposure shall be calibrated to
ensure accurate measurements. This
paragraph is the same as OSHA’s
provision, which is found in 29 CFR
1910.95(d)(2)(ii). FRA received no
comments on this section and it remains
the same as proposed in the NPRM.
Section 227.103(d) provides that a
railroad shall repeat noise monitoring
whenever there is a change in operation,
process, equipment, or controls that
increases noise exposures to the extent
that either: (1) Additional employees
may be exposed at the action level, or
(2) the attenuation provided by the
hearing protectors may be inadequate to
meet the requirements of § 227.103. This
paragraph is the same as OSHA’s
provision, which is located at 29 CFR
1910.95(d)(3). FRA received no
comments on this section and it remains
the same as proposed in the NPRM.
Section 227.103(e) provides that, in
administering the monitoring program, a
railroad shall take into consideration the
identification of work environments
where the use of hearing protectors may
be omitted. This provision is unique to
FRA’s rule; no comparable provision
exists in OSHA’s standard. The purpose
of this provision is to ensure that
railroads do not excessively rely on
reflexive use of hearing protectors when
structuring their hearing conservation
programs. FRA believes that well
managed programs already focus on this
issue, incorporating such monitoring as
necessary, to determine general
categories of work assignments that
PO 00000
Frm 00024
Fmt 4701
Sfmt 4700
require hearing protectors and those that
do not. FRA fully recognizes that no
sustainable amount of monitoring could
support a job-by-job analysis at all
locations on the railroad. FRA also
recognizes that such a level of
monitoring is not appropriate given the
objective of the hearing conservation
program.
Examples of situations where hearing
protection may be omitted include: (1)
Cabs designed for sound reduction.
These cabs should be monitored over
time on a sample basis to ensure that
their noise-insulating qualities continue
to function as intended; and (2)
‘‘Ground’’ assignments where
employees work around moving
equipment but have limited exposure to
loud and persistent noise sources such
as locomotives or retarders.
Aearo Company commented on
§ 227.103(e), asserting that it is
redundant with §§ 227.103(b) and
227.115. FRA does not believe these
provisions are redundant, for they serve
different purposes. Section 227.103(b)
addresses the sampling strategy for the
noise monitoring program, § 227.103(e)
identifies one of the factors that
employers need to consider when
administering the noise monitoring
program, and § 227.115 identifies the
levels at which railroads must require
HP use.
In the proposed rule, FRA listed
several benefits that accrue when
employees refrain from over-using
hearing protectors. That list included
the following: reducing the danger of
infection from the misuse of HP;
strengthening overall employee
compliance with HP use by focusing
requirements where it makes a
difference; and maximizing the
availability of auditory cues associated
with the movement of equipment among
ground personnel, which results in
improved personal safety.
Aearo Company commented on this
preamble discussion, asserting that
some of those items, specifically a
reduction in the danger of infection and
a strengthening of overall compliance,
were not benefits of refraining from
overuse of HP. Regarding infections,
Aearo Company cited a 1985
monograph that found that regular
wearing of HP does not normally
increase the likelihood of contracting an
ear infection. Regarding compliance,
Aearo Company explained that
compliance improves, not by ‘‘having
less people wear [HPs] in less
applications,’’ but by developing a
hearing conservation culture and
empowering employees to believe they
can make a difference in protecting their
hearing.
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Aearo’s comments generated a great
deal of discussion at the post-NPRM
RSAC Working Group meeting. Aearo
Company had presented data which
shows it will not cause an infection.
Several members presented information
at the RSAC Working Group meeting
suggesting that overuse of HP can cause
an infection. Overuse of HP may or may
not cause ear infections. Without further
study or more conclusive data, FRA is
unable to reach any conclusions about
the danger of ear infections from HP.
With respect to compliance, FRA, in
conjunction with the RSAC Working
Group, has determined that there are
compliance benefits from refraining
from overuse of HP. Overprotection can
erode compliance. Where an employee
is instructed to wear HP at all times and
in all circumstances, it creates the
impression for the employee that the HP
requirement is just a pro forma
requirement, not part of a larger
program designed to protect their
hearing. With that mindset, the
employee is less likely to wear HP. This
is particularly significant for
transportation employees who are not
subject to direct supervision during
most of their work shift.
In short, FRA has included
§ 227.103(e) to ensure that railroads do
not overuse HP. FRA wants to ensure
that there is not an excessive reduction
in hearing from the use of HP such that
it interferes with employee
communication and with auditory cues
related to job duties.
Section 227.103(f) specifies that a
railroad shall provide affected
employees or their representatives with
an opportunity to observe any noise
dose measurements conducted pursuant
to this part. This parallels OSHA’s
provision, which is found at 29 CFR
1910.95(f). FRA received no comments
on this section and it remains the same
as proposed in the NPRM.
Section 227.103(g) identifies a
railroad’s obligation for reporting
monitoring results to employees and
their representatives. There are two
components to this reporting provision.
The first component is § 227.103(g)(1),
which requires railroads to notify each
monitored employee of the results of the
monitoring. This is similar, but not
identical, to OSHA’s notification
provision located at 29 CFR 1910.95(e).
Whereas OSHA requires an employer to
notify each employee that is exposed at
or above an 8-hour TWA of 85 dB(A) of
the results of his or her monitoring, FRA
requires a railroad to notify each
monitored employee, irrespective of his
or her exposure.
The second component of this
reporting provision, which is found at
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
§ 227.103(g)(2), requires railroads to
post monitoring results. The posting
should include sufficient information to
permit other crews to interpret the
meaning of the results in the context of
the operations monitored. The
information is intended to help crews
and labor officials to understand the
conditions under which the monitoring
was conducted. There are a wide range
of data elements that a railroad could
include in its posting. FRA believes that
the railroad should include enough
information so that the monitored crew,
as well as other crews, are able to
understand, interpret, and assess the
results of the monitoring. Theresa
Schulz commented on this provision,
commending FRA for requiring
railroads to post noise measurements
results ‘‘in an ‘understandable way’ so
that employees are aware of the hazard
and what they can do to protect
themselves.’’
In order to make the posting
meaningful and understandable to
crews, railroads should include
information on the following types of
data elements: (1) A description of the
monitoring event: The date of the
monitoring, the start time and end time
of the monitoring, the locations of the
beginning and end of the monitoring;
the assignment or train identification
number or train symbol; the locomotive
consist (including locomotive numbers,
models, and dates of manufacture); and
a train profile (including car counts,
length of train, tonnage, and power
consist details); and (2) circumstances of
the monitoring: Number of crew
members monitored, job title(s) of the
crew members monitored, duration of
crew member exposure, number of crew
members monitored, placement of
measurement equipment, results of the
monitoring, and the equipment used for
monitoring.
These data elements are useful,
because they contain information on
items and conditions that can impact
the noise level in the locomotive cab.
The date of monitoring is important,
because it indicates the time of year of
the monitoring, which in turn indicates
general weather conditions (e.g., it was
likely that there was ice on the rail). The
start and end time indicate the length of
the crew exposure to noise. The location
of the monitoring indicates the
topography of the specific run (e.g.,
there were many hills, curves, or closed
embankments). The assignment or train
identification number or train symbol
indicate the type of equipment and the
make-up of the train. The locomotive
consist provides information which can
be used to figure out tractive effort. The
train profile provides specific
PO 00000
Frm 00025
Fmt 4701
Sfmt 4700
63089
information on the particulars of that
train, i.e., car counts, the number of
loaded cars, the number of empty cars,
the length of the train, tonnage, and
power consist details. The monitoring
circumstances are useful, as well,
because they convey the specifics of the
railroad’s monitoring efforts.
Section 227.103(g) is the product of
extensive RSAC Working Group
discussions. It reflects a compromise of
labor and management concerns. To
reach this compromise, the RSAC
Working Group considered numerous
proposals concerning monitoring
observations and reporting. The RSAC
Working Group’s initial proposals did
not include an observation provision
and instead focused on reporting
requirements. One proposal, without an
observation requirement, required a
railroad to notify each employee
exposed during a monitored exposure,
as well as the employee’s designated
representative, of the results of the
monitoring. A variation to that proposal
required a railroad to notify each
employee and employee’s representative
upon written request by the employee.
Another proposal, also without an
observation requirement, required
railroads to provide the monitoring
information to the president of each
labor organization that represented
monitored employees. In yet another
proposal, railroads would have been
required to submit to FRA an annual
summary of its noise monitoring
activity. FRA would then have made
this information publicly available.
In the end, the RSAC Working Group
recommended, and FRA adopted, this
provision which retains the observation
provision contained in OSHA’s
provision located at 29 CFR 1910.95(f).
In addition, the RSAC Working Group
recommended, and FRA adopted, the
requirement that railroads shall notify
monitored employees of the results of
monitoring (irrespective of the TWA)
and shall post monitoring results at
appropriate crew origination points.
FRA believes this provision is the most
effective one, because it satisfies both
labor’s request for access to information
and management’s request for a
reasonable and practical means of
complying with the observation and
reporting provisions. FRA did not
receive any comments recommending
that FRA revise this section and so it
remains the same as proposed in the
NPRM.
Section 227.105 Protection of
Employees
In this section, FRA establishes the
permissible noise exposures for railroad
employees. These limits are the same as
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63090
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
FRA’s previous noise standard, OSHA’s
permissible noise exposures (29 CFR
1910.95(a), Table G–16), and OSHA’s
occupational noise exposure limits (29
CFR 1926.52(a), Table D–2).
Section 227.105(a) prescribes the
noise exposure limits and requires
railroads to provide appropriate
protection if employees are exposed to
noise that exceeds those limits. The
limits are identified in Appendix A to
part 227. For purposes of clarity, FRA
has slightly revised § 227.105(a). FRA
replaced the phrase ‘‘as measured on the
dB(A) scale as set forth in Appendix A’’
with ‘‘as measured according to
§ 227.103.’’ FRA believes that rewording more accurately captures the
requirement of that section. In addition,
since Table 1 contained information that
is equivalent to the information in
Tables A–1 and A–2 in Appendix A,
FRA has removed Table 1 from this
section and referred readers to the limits
in Appendix A. Related to that, FRA has
taken the provision on impulsive or
impact noise from the footnote to Table
1 and has put it into section I of
Appendix A to this part. With respect to
Appendix A, FRA has made some
additional clarifying edits, e.g., use the
term ‘‘work day’’ throughout the
appendix as opposed to alternating
between ‘‘work shift’’ and ‘‘work day;’’
replace ‘‘reference duration’’ with
‘‘duration permitted,’’ add an entry for
140 dB in Table A–1, etc. All of these
changes are drafting clarifications and
as such, they were not part of the RSAC
consensus.
More significantly, FRA has added a
provision on deadheading in section I of
Appendix A. Both Wilson, Ihrig, &
Associates and NHCA had suggested
that FRA add language in the rule to
address deadheading. RSAC Working
Group and FRA agreed with the
comment. FRA addressed this issue in
section (I)(D), which provides that,
when calculating the noise dose, a
railroad shall include any time that an
employee spends deadheading.
Deadheading is a practice unique to the
railroad industry. It refers to the time
when railroad employees are being
transported (whether by van, taxi,
locomotive, or other vehicle) between
their home base and a point where they
begin or end operation of a train.
Although these employees are not
operating a train when deadheading,
they continue to be exposed to noise.
Since noise dose is based on time of
exposure as well as intensity of
exposure, railroads must consider the
time employees spend deadheading in
locomotives when calculating an
employee’s noise dose.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
AIHA also commented on
§ 227.105(a). They suggested that FRA
add a requirement for a 140 dB
unweighted peak limit in Table 1 to
§ 227.105. They asserted that ‘‘this
would eliminate exposures to high-level
impulse noise, which is not captured
with current SLMs.’’ As discussed in the
preceding paragraphs, FRA has removed
Table 1 in this final rule. Accordingly,
this issue became moot. However, FRA
notes that FRA did add an entry for 140
dB in Table A–1 to Appendix A.
Section 227.105(b) addresses the
treatment of measurement artifacts
when assessing exposures exceeding
115 dB(A). Artifacts include events such
as unintentionally coughing into or
brushing against the dosimeter
microphone. Artifacts cause the noise
level to spike, which, in turn, results in
higher overall noise dose levels.
This provision has undergone several
changes. The initial version required
railroads to remove measurement
artifacts. The sentence provided that
‘‘the apparent source of the noise
exposures shall be noted and
measurement artifacts shall be
removed.’’ During pre-NPRM meetings,
a railroad representative explained that
while he wants to remove all artifacts,
he is concerned about a getting into a
predicament where he tries to identify
an artifact but is unable to do so. Unable
to identify the artifact, he would be
unable to remove it. To accommodate
that concern, the version in the NPRM
gave railroads the option of removing
measurement artifacts. The sentence
provided that ‘‘the apparent source of
noise exposures shall be noted and
measurement artifacts may be
removed.’’ Aearo Company submitted
comments on this provision. Aearo
Company acknowledged that the
opportunity to remove measurement
artifacts is reasonable on the surface.
However, they believe it is unnecessary,
and they are concerned that if done
carelessly or with bias, it could
materially distort the data.
In the final rule, FRA requires
railroads to observe and document the
apparent source of noise exposures and
allows them, but does not require them,
to remove measurement artifacts. This
artifact removal provision addresses
only those phenomena that result in
peaks above 115 dB(A) as recorded by
a dosimeter. Where an industrial
hygienist (or other appropriately
qualified individual) is present in a
locomotive cab during a monitoring run
and observes the noise events to which
a monitored individual is subject, the
industrial hygienist has the option of
removing noise sources that cannot be
explained by his or her record of the
PO 00000
Frm 00026
Fmt 4701
Sfmt 4700
run. In other words, if the industrial
hygienist were to maintain a log during
the run in which he documented all
noise sources he observed, (e.g., horn,
grade crossing bell), and he later
discovered that there were additional
unexplained events (over 115 dB(A)) in
the noise monitoring data, he could
remove those unexplained events. Of
course, the industrial hygienist only has
the option of removing those noise
events where the records of his or her
direct observations do not show a noise
event at the time the artifact appears in
the record.
FRA decided to retain the provision
whereby railroads have the option of
removing artifacts, because FRA wanted
to address Working Group members’
concerns. FRA does not want members
to be in a predicament where they try
to identify an artifact and are unable to
do so. Moreover, FRA believes that,
from a statistical perspective, it makes
sense to remove the artifacts. It is
accepted scientific practice to remove
directly observed artifacts from any data
set, because artifacts will affect other
statistical aspects of the data such as the
variance. FRA recognizes that data
manipulation is a concern when data
editing is allowed, however, FRA hopes
that it can rely on the professionalism
of the individuals testing employees and
that those individuals will not
manipulate the data. Finally, FRA
intends to develop a compliance guide
that provides direction to its inspectors
on how it intends on enforcing the
various elements of compliance. This
guide will be available to the regulated
community as well as the public when
it is finalized after the final rule is
published.
Practical concerns aside, FRA
maintains that it is in the best interest
of a railroad to remove measurement
artifacts. Artifacts are not experienced
as noise exposure by the employee, and
so they should not be included in an
employee’s noise dose.
With respect to this provision, FRA
has made a one additional minor
change. Since FRA removed Table 1
from § 227.105(a), FRA removed the
reference to Table 1 in § 227.105(b).
Section 227.105(c) provides that
employee exposure to continuous noise
shall not exceed 115 dB(A). Paragraph
(c) contains the same requirement that
had been located in FRA’s previous
noise regulation at § 229.121(c).
Section 227.105(d) addresses
continuous noise exposure above 115
dB(A). This requirement differs from
OSHA’s standards. OSHA prohibits
unprotected exposures above 115 dB(A)
(See 29 CFR 1910.95(a) and 29 CFR
1926.52(a)). By contrast, FRA permits
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
very brief exposures to continuous noise
(which is defined as noise that exceeds
one second) between 115 dB(A) and 120
dB(A) as long as the total daily duration
does not exceed 5 seconds.
Wilson, Ihrig, & Associates
commented on this provision, stating
that there is no practical reason for
relaxing the standard. Wilson, Ihirg, &
Associates believes that ‘‘it results in a
lax standard and one that does not
encourage railroads to reduce the noise
levels that their employees are exposed
to.’’ They explained that this provision
might be acceptable if FRA were to
adopt a 3 dB exchange rate, but that is
not the case. Wilson, Ihirg, & Associates
believe that FRA’s logic for relaxing the
standard is faulty—i.e., that FRA has no
technical justification for this change
‘‘other than the fact that these noise
levels occur, so these levels can be
allowed to exist.’’
RSAC Working Group discussions on
this matter had revealed that some
members did not wish to penalize the
railroads for these brief unavoidable
excursions above 115 dB(A). At the
same time, other RSAC members did not
wish to stray, to any great extent, from
the existing OSHA standard. It should
be noted, however, that certain RSAC
Working Group members expressed the
view that there may be health effects
associated with longer exposures over
115 dBA, while other RSAC Working
Group members contended that health
effects will not occur until much higher
noise levels.
At the proposed rule stage, FRA
determined that it was necessary to
relax OSHA’s standard because of the
operational realities of railroading and
the resulting safety implications. FRA
stands by those reasons and thus is
leaving this provision as proposed. As
explained in the proposed rule, in the
railroad industry, it is generally
recognized that very brief excursions
above 115 dB(A) sometimes occur in the
cab. For the most part, these noise
exposures are brief, non-recurring
events. Some of these excursions are
due to external conditions that may be
difficult, or unwise, to prevent. The
sounding of the locomotive horn is a
prime example. The locomotive horn is
a safety device used to warn the public
and railroad employees of oncoming
train traffic. If the horn is used while
cab windows are open or while the cab
is adjacent to reflective surfaces, the
noise level in the cab may exceed 115
dB(A). FRA would not want to eliminate
the sounding of the horn, however,
because the horn is very important to
safe rail operations. Unfortunately, then,
these types of noise exposures are
unavoidable. FRA has concluded that
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
this short cumulative time limit will
effectively distinguish incidental, and
perhaps unavoidable and necessary
noise exposures, from longer exposures
that stem from undesirable noise
overexposure found in deficient rolling
stock that should not be in use.
Section 227.107 Hearing Conservation
Program
Section 227.107 sets out the
requirement that railroads establish a
hearing conservation program for all
employees exposed to noise at or above
the action level. It also provides that
railroads shall compute employee noise
exposure in accordance with the tables
found in Appendix A and without
regard to any attenuation provided by
the use of hearing protectors. Since the
RSAC consensus, FRA made some
drafting changes to better clarify the
provisions of this section. FRA divided
the section into two separate
paragraphs. FRA added an explanatory
clause (‘‘required by § 227.103’’) when
referring to the noise monitoring
program. FRA revised § 227.107(a) to
reflect the fact that the hearing
conservation program is set forth in
§§ 227.109 through 227.121, not just in
§ 227.121. In addition, since FRA has
removed Table 1, FRA removed the
reference to Table 1 in this section. The
drafting changes aside, § 227.107 is the
same as the comparable provision found
in OSHA’s standard at 29 CFR
1910.95(c).
FRA received one comment on this
section. The doseBusters Company
requested that FRA clarify the meaning
of the last sentence in § 227.107. The
doseBusters Company asked: ‘‘Is the
intent to prohibit any adjustment to the
dose measurement, based on the hearing
protector manufacturer’s published
attenuation data? FRA believes that the
language (which is the identical
language which OSHA uses) speaks for
itself. The relevant portion of the last
sentence of § 227.107 provides that:
‘‘Noise exposure shall be computed
* * * without regard to any attenuation
provided by the use of hearing
protectors.’’ This means that a
professional reviewer should not adjust
an employee’s exposure dose based on
any attenuation provided by the
employee’s hearing protection. Or as the
Working Group answered the question,
‘‘You do not adjust the dose based on
the hearing protection worn by the
employee.’’ In short, the answer to the
doseBuster Company’s question is, yes.
Section 227.109 Audiometric Testing
Program
This section sets out the requirements
for railroad audiometric testing
PO 00000
Frm 00027
Fmt 4701
Sfmt 4700
63091
programs. Section 227.109(a) sets out
the general requirement that each
railroad shall establish and maintain an
audiometric testing program as set forth
in this section and include employees
who are required to be included in a
hearing conservation program pursuant
to § 227.107. FRA has made one
clarifying change to this section. Section
227.109(a) of the NPRM had contained
the phrase ‘‘by making audiometric tests
available to all of its employees.’’
Because one of the paragraphs in this
section (see § 227.109(f)) specifically
addressed this issue, FRA thought it was
confusing and unnecessary to include
this phrase here, and so FRA removed
this phrase. In place of that phrase, FRA
included language clarifying that the
railroad shall include in the audiometric
testing program all employees who are
required to be included in the HCP.
Section 227.109(b) provides that
audiometric tests shall be provided for
employees, at no cost to employees.
This paragraph refers only to the
audiometric test itself. It does not refer
to additional costs that an employee
might incur, e.g., missed trips or missed
work time as a result of the test. FRA
received no comments on this section
and it remains the same as proposed in
the NPRM.
Section 227.109(c) requires that
appropriate professionals or qualified
technicians administer the audiometric
test. FRA received several comments on
this provision. Commenters included
ASHA, AAA, AIHA, CAOHC, NHCA,
Aearo Company, and Theresa Schulz.
The comments were very similar in
nature.
With respect to physician
qualifications, the commenters stated
that it is unwise to let any physician
administer or supervise audiometric
testing. Because there is a wide range of
medical specialities, and because
hearing testing and hearing conservation
program management are not usually
part of medical training programs, most
physicians are not well-informed on the
details of hearing, its measurement, and
its impairment. Theresa Schulz went
further, suggesting that FRA require
physicians to attend training on how to
supervise the audiometric testing
portion of a hearing conservation
program.
With respect to technician
competency, all of the commenters
shared the same basic concern. They
disagreed with the second method that
FRA permitted in the NPRM for
qualifying technicians (i.e., allowing
technicians to demonstrate their
competence to a audiologist,
otolaryngologist, or physician). The
commenters think it contributes to the
E:\FR\FM\27OCR2.SGM
27OCR2
63092
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
weakening of the competence of the
personnel conducting the audiometric
tests. They questioned whether a
technician who had merely
‘‘satisfactorily demonstrated
competence’’ would be skilled enough
to perform some of the necessary duties,
e.g., problem solving for judgment calls
encountered during testing or serving as
a resource for employees with
questions.
As an alternative, the commenters
suggested that the rule only allow
technicians to be qualified by the first
method (i.e., successful completion of
the CAOHC certification requirements).
They explained that CAOHC has a board
of multi-disciplinary professionals that
collectively strive to maintain and
increase the minimum standard of
competency. By requiring railroads to
use only CAOHC-certified technicians,
FRA would assure a high level of
quality for this component of the HCP.
Also, regarding technician
qualifications, there were a few
comments about FRA’s decision in the
NPRM to allow a technician to be
qualified by CAOHC or any equivalent
organization. This differs from OSHA’s
standard, which only allows technicians
to be certified by CAOHC. CAOHC
strongly opposed this provision,
explaining that CAOHC is the only
national accreditation program of its
kind for Occupational Hearing
Conservationists. CAOHC further
explained that § 227.109(c)(2) should
not include the words ‘‘equivalent
organization, because there is no
equivalent to CAOHC’s unique
capabilities.’’ CAOHC pointed out that
MSHA recognized CAOHC’s uniqueness
in its 1999 rule.54
Finally, regarding technician
qualifications, Theresa Schulz
commended FRA for removing OSHA’s
‘‘unsupportable exemption [from
CAOHC certification] for technicians
using microprocessors.’’
FRA made three changes to this
provision. Two were the product of
RSAC consensus, and one was a drafting
clarification that FRA added on its own.
First, with RSAC consensus, FRA added
a qualification requirement for
physicians. According to
§ 227.109(c)(1), audiometric tests shall
be performed by an audiologist,
otolaryngologist, or other physician who
54 In contrast, Aearo Company and CAOHC
asserted that MSHA recognized the uniqueness of
CAOHC ‘‘(with no equivalent organization).’’ That
does not appear to be the case. In 29 CFR 62.101,
MSHA defines a ‘‘qualified technician’’ as ‘‘a
technician who has been certified by the Council
for Accreditation in Occupational Hearing
Conservation (CAOHC), or by another recognized
organization offering equivalent certification.’’
(Italics added).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
has experience and expertise in hearing
and hearing loss. (Italics indicate
revised language). ‘‘Experience and
expertise’’ means that the individual has
the knowledge and skills to conduct
audiometric tests, has experience
conducting audiometric tests, and has
demonstrated success in audiometric
conducting tests.
FRA did not, however, add a
provision requiring physicians to attend
training on how to supervise the
audiometric testing portion of a HCP.
FRA did not think it was necessary to
require that training, especially given
the addition of the ‘‘experience and
expertise’’ requirement. By requiring
that physicians have ‘‘experience and
expertise,’’ FRA ensures that the doctors
are knowledgeable about hearing
conservation and so there is no point to
also require those doctors to attend
training.
Second, subsequent to the RSAC
consensus, FRA added a definition for
‘‘qualified technician’’ to § 227.5 . FRA
used language from § 227.109(c)(2) of
the proposed rule for the definition
(though with some modifications, which
are discussed below). FRA believes this
change simplifies the rule. Rather than
repeat the definition throughout the
rule, FRA states it once in the
beginning. According to § 227.5,
audiometric tests shall be performed by
a qualified technician who can become
qualified in one of two ways: (1) By
successfully completing a course
designed for the training and
certification of audiometric technicians,
or (2) by satisfactorily demonstrating
competence to the Professional
Supervisor of the Audiometric
Monitoring Program in administering
audiometric exams and in the use and
care of audiometers. Qualified
technicians might include trained
technicians as well as hearing aid
specialists, industrial hygienists, and
nurses who have the appropriate
qualifications. A technician (of either
qualification type) must be responsible
to the Professional Supervisor of the
Audiometric Monitoring Program.
Third, with RSAC consensus, FRA
modified the qualification requirement
for technicians. Technicians must be
responsible to a Professional Supervisor
of the Audiometric Program, instead of
simply an ‘‘audiologist,
otolaryngologist, or a physician.’’ A
Professional Supervisor of the
Audiometric Monitoring Program is ‘‘an
audiologist, an otolaryngologist, or a
physician with experience and expertise
in hearing and hearing loss.’’ As
explained above, ‘‘experience and
expertise’’ means that the individual has
the knowledge and skills to conduct
PO 00000
Frm 00028
Fmt 4701
Sfmt 4700
audiometric tests, has experience
conducting audiometric tests, and has
demonstrated success in audiometric
conducting tests. Consistent with this
change, FRA added a definition of
Professional Supervisor to the
Definitions section (§ 227.5). However,
FRA used a different definition than
that suggested by commenters. Several
commenters had suggested that FRA
define a Professional Supervisor as ‘‘an
audiologist, an otolaryngologist, or a
physician who supervises the
audiometric testing program, reviews
audiograms, and reviews audiometric
tests.’’ Rather than focus on the tasks
involved in being an audiologist, FRA
instead chose to focus on the
qualifications of an audiologist.
Despite several commenters’
suggestions, FRA did not eliminate the
second method for qualifying
technicians (i.e., satisfactorily
demonstrating competence). FRA
adopted this provision from OSHA’s
rule. FRA does not know of any
problems with weakened competence
among technicians performing under
OSHA’s rule, and so FRA believes it is
appropriate to use it here. Furthermore,
if FRA were to remove this provision at
this point in time, FRA would
potentially disqualify an entire group of
individuals who have been performing
these tasks (and presumably well) under
OSHA’s rule for years. However,
acknowledging that technicians must be
adequately qualified, FRA revised this
second method. As explained above,
FRA now requires a technician to be
responsible to a Professional Supervisor
who must have experience and
expertise in hearing and hearing loss.
FRA anticipates that this will ensure
that technicians are fully qualified.
FRA also retained the provision
allowing technicians to be certified by
an ‘‘equivalent organization.’’ FRA
wants the rule to be forward looking. At
the time of this final rule, CAOHC is the
only national accreditation program for
hearing conservationists, however, in
coming years, there may be additional
organizations comparable to CAOHC.
FRA wants to ensure that the rule has
the flexibility to accommodate such
changes. FRA notes that MSHA
included a comparable phrase in its
Final Rule on occupational noise
exposure of miners.55
Section 227.109(d) is intentionally left
blank. The proposed § 227.109(d) had
addressed audiometric instrumentation,
providing that instruments used for
audiometric testing must meet the
requirements of the Appendix C
‘‘Audiometric Testing Requirements.’’
55 See
E:\FR\FM\27OCR2.SGM
29 CFR 62.101 and footnote 54 supra.
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Since FRA has removed Appendix C:
‘‘Audiometric Testing Requirements’’
from the rule, this regulatory provision
is now unnecessary. For a discussion of
FRA’s decision to remove the proposed
Appendix C, see the section-by-section
analysis for Appendix C.
Section 227.109(e) provides the
requirements for baseline audiograms. A
baseline audiogram is the reference
audiogram to which all future
audiograms are compared. Baseline
audiograms are necessary, because they
can then be used as points of
comparison for subsequent audiograms.
Note that FRA has changed some of the
formatting of this section since the
proposed rule in order to make the rule
easier to understand, however, the
substance of the section remains the
same. Section 227.109(e)(1) sets out the
requirements for establishing baseline
audiograms for new employees. A
railroad has six months from a new
employee’s first tour of duty to establish
a valid baseline audiogram for that
employee. See § 227.109(e)(1)(i). Where
a railroad uses a mobile test van, a
railroad has one year from a new
employee’s first tour of duty to obtain a
valid baseline audiogram. See
§ 227.109(e)(1)(ii). Pre-employment
audiometric tests can be used as
baseline audiograms.
Regarding § 227.109(e)(1), ASHA,
AIHA, and Theresa Schulz submitted
virtually identical comments and
opposed several of the provisions.
Contrary to FRA’s 6 month allowance
for new employees, they recommended
that FRA require railroads to complete
an audiometric test before the employee
works in an environment where sound
levels are going to be equal to or greater
than 85 dBA or pre-placement.
Similarly, contrary to FRA’s 1 year
allowance for new employees tested on
a mobile test van, ASHA, AIHA, and
Theresa Schulz suggested that FRA
require railroads to obtain baseline
audiograms in 90 days for new
employees who are tested on mobile test
vans. They explained that ‘‘it is in the
employer’s best interest to obtain an
accurate measurement of an employee’s
hearing levels as soon as possible.’’
FRA and the Working Group did not
adopt these recommendations and is
leaving the language as proposed in the
NPRM. While FRA agrees that it is in
the employer’s best interest to obtain a
measurement as soon as possible, FRA
also realizes that the commenters’
recommendation is not practical, given
the mobile nature of railroad operating
work and the large size of the railroad
workforce. Railroad operating
employees are constantly moving
throughout the country. It is hard to
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
know what noise environment any
individual employee is going to
encounter on any given day since the
noise level can vary greatly depending
on several variables, e.g., which
locomotive, which run, what time of
day, what geographical characteristics,
etc. As such, it would be difficult for
railroads to know when they would
have to test any given employee.
Exacerbating the situation further, it
would be administratively difficult, and
potentially very costly, for railroads to
have to plan, schedule, and arrange for
each individual audiometric test as an
employee moves across company
locations throughout the country. FRA
found, and the RSAC Working Group
agreed, that it is necessary and
reasonable to give railroads six months
to obtain a new employee’s baseline
audiogram and to give them one year for
new employees tested on mobile test
vans.
FRA also found this allowance for
new employees to be reasonable because
a railroad may not know that a newly
hired employee has exposures that
require baseline audiometric testing
until the employee is assigned to, or
bids certain jobs. Once the jobs the
employee is doing are known the fact
that those jobs have triggering exposures
requiring inclusion in the Hearing
Conservation program, and thus a
baseline audiometric test will be known.
In addition, FRA would note that the
employees covered by the scope of the
rulemaking are not highly dosed
workers, which are more likely to be
found in other industries.
Furthermore, the concern underlying
the comment is that employees need to
have adequate protection for their
hearing. As a practical matter,
employees are going to be adequately
protected, because most of them will
have had audiometric tests during their
pre-employment tests. At the postNPRM Working Group meeting, Class 1
railroad representatives explained that it
is common practice for their railroads to
use pre-employment tests as baseline
audiograms.
Furthermore, the commenters’
concern is also addressed by another
provision in the rule. According to
§ 227.115(c)(2), a railroad must require
the use of hearing protectors when: an
employee is exposed to sound levels
that meet or exceed the action level and
the employee has not yet had a baseline
audiogram. ASHA, AIHA and Theresa
Schulz had made another
recommendation, suggesting that when
a railroad does not obtain an audiogram
before placing an employee on the job
and if that employee’s noise exposure
meets or exceeds the action level, the
PO 00000
Frm 00029
Fmt 4701
Sfmt 4700
63093
railroad should require that employee to
wear hearing protection until the
railroad can obtain an audiogram. As
explained at the beginning of this
paragraph, FRA has already adopted
that requirement but located it
elsewhere in the rule.
Section 227.109(e)(2) sets out the
requirements for establishing baseline
audiograms for existing employees.
Section 227.109(e)(2)(i) covers existing
employees who have not had a baseline
audiogram as of the effective date of the
rule. Class 1, passenger, and commuter
railroads, and railroads with 400,000 or
more annual employee hours have two
years from the effective date of the rule
to establish a baseline audiogram for
this group of employees. Railroads with
400,000 or fewer annual employee
hours have three years from the effective
date of the rule to establish a baseline
audiogram for this group of employees.
For a further discussion on allowances
for small entities, see the section-bysection analysis for § 227.103(a).
ASHA and AIHA did not like the two
year allowance that FRA gave railroads
for existing employees. They suggested
that railroads treat existing employees
without baseline audiograms as if they
were new employees. NHCA likewise
did not like this allowance, suggesting
that FRA phase in all aspects of the rule
within 12 to 18 months. NHCA wrote
that SBREFA, which FRA cited to
support the phase-in implementation,
only applies where no immediate safety
risks exist. NHCA believes there is an
immediate safety risk here, and so it is
not appropriate to phase in
implementation dates.
FRA, along with a Working Group
recommendation, decided to leave that
provision as proposed in the NPRM. At
the NPRM stage, FRA made a decision
to distinguish between new employees
and existing employees and to give
railroads more time to test existing
employees. That was one of the big
differences between OSHA’s rule and
FRA’s rule with respect to baseline
audiograms. FRA had specifically
deviated from OSHA and extended the
time frame for compliance in order to
accommodate the unique aspects of the
rail industry. FRA recognizes that there
are serious administrative difficulties,
and potentially high costs, of testing a
large number of mobile employees in a
short period of time. This extra time was
intended to give railroads an
opportunity to ‘‘catch up’’ on their
testing. Also, contrary to NHCA’s
assertion, FRA does not believe there is
an immediate safety risk. FRA expects
that many of the rail employees will be
tested well before the end of the twoyear period. Moreover, as a practical
E:\FR\FM\27OCR2.SGM
27OCR2
63094
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
matter, FRA expects that many railroad
employees will already have been tested
as part of existing railroad hearing
conservation programs. Accordingly,
FRA did not adopt the commenters’
suggestions.
Sections 227.109(e)(2)(ii) and (iii)
cover existing employees who have had
a baseline audiogram as of the effective
date of the rule. FRA has decided to
grandfather many of these baseline
audiograms. This is in line with OSHA,
which had adopted a lenient policy on
accepting baseline audiograms that were
produced before the promulgation of the
hearing conservation amendment.
OSHA had noted that it was flexible in
grandfathering old baseline audiograms,
because in most cases, this would be
more protective of employees.
For the same reasons, FRA is
grandfathering baseline audiograms.
FRA believes that the grandfathered
baseline audiograms will provide a
more accurate picture of an individual’s
hearing ability. A grandfathered
baseline audiogram will show an
employee’s initial hearing level and so,
when compared with subsequent
audiograms, it will be possible to
determine the extent of an employee’s
hearing loss. Also, by allowing railroads
to grandfather baseline audiograms,
FRA eliminates unnecessary costs for
the railroad, because railroads do not
need to re-test employees that have
already been tested. Whether or not a
railroad can grandfather a particular
baseline audiogram depends on how the
railroad conducted that baseline
audiogram.
Per § 227.109(e)(2)(ii), where an
existing employee has already had a
baseline audiogram as of the effective
date of this rule, and it was obtained
under conditions that satisfied the
requirements found in 29 CFR
1910.95(h), the railroad must use that
baseline audiogram. Section 1910.95(h)
identifies OSHA’s audiometric test
requirements for employees who
obtained audiograms as part of a hearing
conservation program. The requirements
in 29 CFR 1910.95(h) are similar to the
requirements that are now found in
FRA’s rule at § 227.109.
FRA notes that many locomotive
engineers will have baseline audiograms
that were obtained as part of the hearing
acuity 56 testing for FRA’s Locomotive
56 Aearo Company commented that FRA used the
term ‘‘hearing acuity’’ incorrectly in the preamble
and suggested that FRA use ‘‘sensitivity’’ instead.
FRA used the term ‘‘hearing acuity’’ in the
preamble, and again in this final rule, to refer to an
existing regulatory provision that contains the term.
See § 240.121 ‘‘Criteria for vision and hearing acuity
data.’’ Moreover, FRA’s use is consistent with
OSHA’s use. See 66 FR 52031, 52032 (October 12,
2001).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
Engineer Qualification. See 49 CFR
240.121. FRA expects that the majority
of these audiograms will have met
OSHA’s 29 CFR 1910.95(h)
requirements. FRA notes that railroads
must accept these baseline audiograms
if they were obtained in compliance
with the requirements found in 29 CFR
1910.95(h)(1)–(5).
Per § 227.109(e)(2)(iii), where an
existing employee has already had a
baseline audiogram as of the effective
date of this rule, and it was obtained
under conditions that satisfied the
requirements in 29 CFR 1910.95(h)(1)
but not the requirements found in 29
CFR 1910.95(h)(2)–(5), the railroad may
elect to use that baseline audiogram as
long as the Professional Supervisor of
the Audiometric Monitoring Program
makes a reasonable determination that
the baseline audiogram is valid and is
clinically consistent with the other
material in the employee’s medical file.
At the suggestion of AAA and
CAOHC, FRA revised this section by
replacing the phrase ‘‘individual
administering the Hearing Conservation
Program’’ (which was used in the
NPRM) with ‘‘Professional Supervisor of
the Audiometric Monitoring Program.’’
Professional Supervisor of the
Audiometric Monitoring Program is
defined in § 227.5. While the RSAC
Working Group agreed to add a
definition in the final rule for
‘‘Professional Supervisor of the
Audiometric Monitoring Program,’’ the
RSAC Working Group did not
specifically address the substitution in
this situation. FRA has made this
change, because it ensures that the
determination in § 227.109(e)(2)(iii) is
made by a qualified professional who
understands hearing loss. FRA made a
similar change in § 227.109(i).
ASHA, AIHA, and Theresa Schulz
commended FRA for grandfathering
these pre-existing baseline audiograms.
They also agreed with FRA that it
should be the responsibility of the
professional supervising the hearing
conservation program to determine
which pre-existing audiograms are
acceptable and which should be chosen
as the baseline.
An issue closely related to
grandfathering baseline audiograms is
recordkeeping. During pre-NPRM
Working Group meetings, many railroad
representatives expressed concern about
the record-keeping requirements
associated with grandfathered baseline
audiograms. Section 227.121 requires
railroads to maintain records of
employee audiometric tests and to
retain them for the duration of the
employee’s employment plus thirty
years. Those records should include
PO 00000
Frm 00030
Fmt 4701
Sfmt 4700
information such as the name and job
classification of the employee, the date
of the audiogram, the examiner’s name,
the date of the last acoustic or
exhaustive calibration of the
audiometer, and accurate records of the
measurements of the background sound
pressure levels in the audiometric test
rooms. At the NPRM stage, railroads
explained that they will not be able to
provide all the required information for
grandfathered baseline audiograms.
FRA is fully aware of the railroads’
concerns and so FRA reiterates in this
final rule what FRA explained in the
proposed rule. FRA recognizes that, in
some cases, railroads will not have some
of that information and will not be able
to obtain some of that information (e.g.,
a railroad might not know the examiner
or the last exhaustive calibration for a
baseline audiogram that was obtained
five years ago). FRA will be cognizant of
that fact when evaluating what records
are available and when evaluating the
adequacy of the available records.
Overall, FRA will take a practical
approach toward the audiometric test
record-keeping requirements for
grandfathered baseline audiograms.
Section 227.109(e)(3) addresses one of
the details of baseline audiogram tests,
specifically, that baseline audiograms
must be preceded by a 14-hour quiet
period and that HP may be used in place
of the 14-hour quiet period. Aearo
Company submitted comments on the
second part of this subparagraph. Aearo
Company has concerns about allowing
employees to substitute hearing
protection in place of a 14-hour quiet
period. Aearo Company asserts that
hearing protectors do not provide high
levels of protection and do not always
prevent noise-induced hearing loss.
They explain that hearing protectors fail
to prevent permanent threshold shifts,
and so they must also fail to prevent
temporary threshold shifts. In essence,
then, Aearo Company doesn’t think
hearing protectors are an effective
substitute for a quiet period. However,
Aearo Company recognizes that it
would be impossible and impracticable
to require employees to rely solely on
the 14-hour quiet period, because, for
example, it is not always possible for an
employer to obtain an audiogram prior
to a workshift.
Aearo Company proposes that FRA
continue to allow the use of the 14-hour
quiet period, but with stipulations. An
employee would be able to use hearing
protectors as long as, within 5 days
prior to the audiogram: (1) The
employee received individual refresher
training on the use of his or her hearing
protector, (2) the condition of the
employee’s hearing protector is checked
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
and found to be satisfactory, (3) the
hearing protector to be used is either an
earmuff or a foam earplug or is a device
that has been fit-tested and shown to
provide adequate protection to reduce
exposure to levels equivalent to less
than 80 dB(A), and (4) an employee
exposed to sound levels about 100
dB(A) would be required to wear an
earplug with an earmuff for the 14-hour
quiet period.
FRA and the Working Group
considered Aearo Company’s suggestion
but decided to leave the rule as
proposed. FRA believes this change
would impose very rigorous standards
that would greatly increase the
requirements of the rule and are not
justified. In addition, there are practical
problems with this approach. For
example, regarding #1, FRA’s standard
already requires training whenever an
employer provides an employee with
HP, so it is unnecessary to duplicate
that requirement. Regarding #2, it is
unclear who would check the
employee’s HP and whether there
would be a record made of the check.
If so, there would then be an additional
recordkeeping burden on employers.
Regarding #3 & 4, this specific standard
contradicts the performance standard
that FRA uses in § 227.115(a)(4) for
giving employees an opportunity to
select from a ‘‘variety’’ of HPs with a
‘‘range’’ of attenuation levels. Finally,
FRA pulled this provision directly from
OSHA’s general industry noise
standard. See 29 CFR 1910.95(g)(5)(iii).
As OSHA is the lead agency in this area,
and FRA does not see any compelling
reason to veer from OSHA’s rule, FRA
is leaving the rule the same as FRA’s
proposed rule and OSHA’s general
industry standard.
Since the post-NPRM RSAC Working
Group meeting, FRA realized that there
were some drafting errors in this section
and corrected them . Section
227.109(e)(3) referred to ‘‘the level
specified in § 227.115’’ and yet there are
several levels listed in § 227.115 and so
it was not clear to which level in
§ 227.115 the rule was referring. To
clear up this type of confusion which
can result from cross-referencing, FRA
has revised § 227.109(e)(3) such that it
refers directly to the specified level, i.e.,
the action level. In addition, FRA
changed the term ‘‘workplace’’ to
‘‘occupational’’ in the second sentence
of § 227.115, so that the terminology is
consistent throughout the paragraph.
Accordingly, § 227.115 now provides
that ‘‘testing to establish a baseline
audiogram shall be preceded by at least
14 hours without exposure to
occupational noise in excess of the
action level. Hearing protectors may be
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
used as a substitute for the requirement
that baseline audiograms be preceded by
14 hours without exposure to
occupational noise.’’
Section 227.109(e)(4) provides that
‘‘the railroad shall notify its employees
of the need to avoid high levels of nonoccupational noise exposure during the
14-hour period immediately preceding
the audiometric examination.’’ FRA did
not receive any comments on this
section and so it remains the same as
proposed in the NPRM.
Section 227.109(f) provides the
requirements for periodic audiograms.
Periodic audiograms are the subsequent
audiograms that are conducted at
regular intervals in the future. They can
be used to identify deterioration in
hearing ability and to track the
effectiveness of a hearing conservation
program.
This section has undergone several
permutations. The starting point was
OSHA’s rule. OSHA requires an
employer to obtain a new audiogram at
least annually for each employee
exposed at or above the 8-hour TWA of
85 dB(A). See 29 CFR 1910.95(g)(6).
During RSAC Working Group meetings,
labor representatives tended to disfavor
mandatory hearing testing and railroad
representatives tended to favor
mandatory hearing testing. The RSAC
Working Group members reached a
compromise position that was used in
the proposed rule. It required railroads
to test employees at least once every
three years but to offer a test at least
once a year.
FRA received several comments on
this provision. The commenters,
including ASHA, AAA, AIHA, NHCA,
CAOHC, Aearo Company, Theresa
Schulz, and 12 individual ASHA
members, overwhelmingly supported an
annual audiometric testing requirement.
Theresa Schulz wrote that the annual
audiogram is a ‘‘critical tool to
determine the effectiveness of a hearing
conservation program.’’ NHCA wrote
that ‘‘annual audiometric monitoring
will allow for early identification,
leading to early intervention, and thus
the potential to prevent noise-induced
hearing loss.’’ Aearo Company
explained that, with triennial
audiometric testing, an employer’s
ability to catch changes in time and to
halt the progression [of hearing loss]
will be substantially diminished. ASHA
and AIHA went on to explain that a
significant amount of irreversible
hearing loss can occur in 3 years.
Theresa Schulz and NHCA added that
the progression of hearing loss is more
aggressive in early years of an
employee’s career, especially the first 3
to 6 years of noise exposure.
PO 00000
Frm 00031
Fmt 4701
Sfmt 4700
63095
The commenters identified several
other reasons why FRA should require
annual testing. Aearo Company wrote
that the test data is of less value when
spread out over 3 year periods. Aearo
Company explained that audiometric
test results can be very variable, and so
a doctor reviewing data for potential
shifts might want to review additional
test results spanning a period of years.
With triennial tests, it would take too
long to develop a database of periodic
audiograms. Aearo Company also wrote
that the annual audiogram is the best
training opportunity that a professional
hearing conservationist has to educate
and motivate employees. Having a
triennial testing requirement means
there are much fewer training
opportunities. In addition, ASHA,
AIHA, and Aearo Company noted that it
would more logical for FRA to be
consistent with other Federal noise
standards (OSHA, MSHA, DOD) and
have an annual audiometric test
requirement. CAOHC and Aearo
Company acknowledged that the mobile
railroad workforce presents some
logistical challenges and recognized
FRA’s desire to reduce that burden for
railroads, yet still thought that FRA
should require annual audiometric tests.
Finally, ASHA and AIHA also stated
that it will be administratively more
difficult for FRA to track compliance if
there is as much as 3 years between
audiograms.
There was one commenter who took
a different position. Attorney/
audiologist Michael Fairchild of
Michael Fairchild and Associates wrote
that ‘‘OSHA and MSHA do not make the
hearing test mandatory which results in
some individuals ‘slipping through the
cracks’ until it is far too late to preserve
their hearing.’’ He felt that obtaining
triennial hearing tests would help to
alleviate that problem to at least some
extent.
At the post-NPRM RSAC Working
Group meeting to discuss comments to
the proposed rule, the AAR raised a new
concern. They noted that they had not
raised this concern in their comment
submission but that it followed the same
logic as their comment submission
regarding calendar days in the training
requirement. The AAR argued that the
testing should be based on a calendar
year, not 365 days from the last test. The
AAR explained that they had not
contemplated the issue when the RSAC
Working Group was drafting
recommendations for the NPRM, but at
this stage, they had realized that it
would too difficult for them to comply
with the proposed requirement. They
explained that it would be virtually
impossible to offer testing to each
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63096
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
covered employee every 365 days, given
their large workforce, mobile nature of
the workforce, and lack of clinics in
certain rural communities. The railroad
representatives explained that they
needed more time and more flexibility
to meet the testing requirement. In turn,
the labor representatives pointed out
that a calendar year requirement raised
some serious practical concerns. For
example, a railroad could offer testing to
an employee in January 2008 and would
not have to offer testing again to that
employee until December 2009. In
effect, then, employees could go as long
as 23 months without having the
railroad offer them a test.
There was a great deal of discussion
on this topic during the post-NPRM
Working Group meeting. The RSAC
Working Group members were faced
with various sets of competing
positions. There was the railroad-labor
difference of opinion as to the time
frame. The railroad wanted the
requirement based on the calendar year
but labor thought that allowed for far
too much time between tests. There was
also a railroad-commenter difference of
opinion. On one hand, commenters
rejected a triennial testing requirement
and instead recommended an annual
audiometric testing requirement. On the
other hand, the railroad representatives
adamantly asserted that they were
unable to comply with the proposed
triennial testing requirement, no less an
annual requirement.
In the end, the RSAC Working Group
recommended, and FRA adopted, a
variation on the provision that was used
in the proposed rule. The final rule
requires a railroad to offer an
audiometric test to each employee
included in the hearing conservation
program at least once every calendar
year, however, the rule qualifies the
time frame. For any individual
employee, the interval between the date
offered for a test in a calendar year and
the date offered in the subsequent
calendar year shall be no more than 450
days and no less than 280 days. See
§ 227.109(f)(1).
The provision giving railroads up to
450 days to offer a test to any individual
employee is important, because it will
provide railroads with sufficient time to
offer testing to their large, mobile
workforce. This provision was part of
the RSAC recommendation for this
rulemaking.
The provision that requires railroads
to offer audiometric tests at least 280
days apart was not a product of the
RSAC consensus. FRA added this
provision after the RSAC Working
Group meeting. Without this provision,
railroads would have been able to offer
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
tests to employees virtually back-toback. For example, a railroad could test
an employee in December 2006 and
again in January 2007. To prevent that,
FRA has established a minimum time
period between tests of 280 days, or 9
months. FRA chose 9 months, because
it allows for equal increments of time in
relation to the 450 day requirement. The
final rule also requires railroads to
require each employee included in the
hearing conservation program to take an
audiometric test at least once every 1095
days. See § 227.109(f)(2). 1095 days is
the equivalent of 36 months or 3 years.
This triennial requirement is consistent
with the triennial hearing acuity
requirement for locomotive engineers.
See 49 CFR 240.201(c).
Contrary to some of the comments
received, FRA believes that these
provisions are, in fact, comparable to
OSHA provisions because they mandate
employers’ offering testing annually and
require employee’s participation not
less than triennially.
Section 227.109(g) provides the
requirements for the evaluation of
audiograms. Paragraph (g)(1) provides
that each employee’s periodic
examination should be compared to that
employee’s baseline audiogram to
determine if the audiogram is valid and
to determine whether a standard
threshold shift (STS) has occurred. The
second sentence of paragraph (g)(1)
provides that this comparison may be
done by a technician. AAA and CAOHC
commented on this second sentence,
suggesting that FRA require this
comparison to be done by a technician
‘‘under the supervision of a Professional
Supervisor of the Audiometric Testing
Program.’’ FRA adopted that change,
though not in the precise manner the
commenter suggested. Instead of adding
that phrase here, FRA added that phrase
elsewhere—i.e., in the definition of
‘‘qualified technician’’ located in
§ 227.5. FRA believes it important to
have the Professional Supervisor
oversee these determinations, because it
will ensure consistency of application
across all determinations.
Paragraph (g)(2) states that if the
periodic audiogram demonstrates a STS,
a railroad may obtain a retest within 90
days and use the retest as the periodic
audiogram. This provision differs from
OSHA’s regulation. OSHA gives an
employer 30 days to obtain a re-test if
an annual audiogram shows that an
employee has experienced a standard
threshold shift. See 29 CFR
1910.95(g)(7)(ii).
Several commenters opposed the 90day retest period, suggesting that FRA
follow NIOSH’s recommendation for an
immediate retest if an STS has occurred.
PO 00000
Frm 00032
Fmt 4701
Sfmt 4700
If the retest audiogram does not show
the same shift, the restest audiogram
becomes the test of record and there is
no need for a confirmatory test within
30 days. ASHA and AIHA also
recommended that FRA require
employers to conduct confirmation
audiograms within 30 days of any
monitoring or retest audiogram that
continues to show an STS. They believe
that the 90-day window permits too
much time to lapse to permit effective
comparison of tests, and they believe
that 30 days is more appropriate. One
commenter supported this provision.
Michael Fairchild and Associates, noted
that the 90-day retest period ‘‘makes
sense given the mobile nature of the
target worker population and the fact
that some conditions that may cause a
spurious STS may not resolve within
the 30 days required by OSHA and
MSHA.’’
FRA and the Working Group
discussed the issue and decided to leave
the retest period at 90 days. Most
importantly, this 90-day retest period
accommodates the mobile nature of the
railroad work force. OSHA’s 30-day
retest period would not be appropriate
here. OSHA regulates employers that
tend to have employees at fixed
facilities, and so it is practically
possible to retest those employees
within 30 days. Railroad employees, by
contrast, are not at fixed facilities, but
are widely dispersed, constantly moving
throughout the country, and often work
irregular hours. As well, many are
subject to the Hours of Service laws,
which further limits the railroad’s
ability to test employees on certain
dates and at certain times. In addition,
FRA and the Working Group believe
that the 90-day period might allow for
a better retest than the 30-day period.
For example, medical conditions that
are likely to interfere with the
audiometric test, such as the common
cold, are more likely to resolve
themselves in 90 days than 30 days.
Section 227.109(g)(3) provides that
the audiologist, otolaryngologist, or
physician shall review problem
audiograms and shall determine
whether there is a need for further
evaluation. A railroad shall provide
various pieces of information to the
person performing this review. That
information includes: The baseline
audiogram of the employee to be
evaluated, the most recent audiogram of
the employee to be evaluated,
measurements of background sound
pressure levels in the audiometric test
rooms, and records of audiometer
calibrations.
As used in this paragraph, ‘‘problem
audiograms’’ refers to audiograms that
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
have had technical or administrative
problems. In a general sense, it refers to
situations where the testing equipment
did not work, where there is evidence
that the test-taker skewed the test
results, or where the results are
medically atypical. Examples of
problem audiograms include
audiograms that show large differences
in hearing thresholds between the two
ears, audiograms that show unusual
hearing loss configurations that are
atypical of noise induced hearing loss,
and audiograms with thresholds that are
not repeatable.57
NHCA commented on this paragraph,
noting that FRA had not required
railroads to provide the worker’s most
recent noise exposure. NHCA thinks
this information is critical to the
professional reviewer in making
appropriate follow-up decisions. NHCA
also wrote that ‘‘although it can be
difficult to obtain this information from
the worker, it is not impractical
especially since FRA has a requirement
to keep a list of employees or positions
in the hearing conservation program.’’
FRA is not sure what the NHCA is
recommending here. NHCA seems to be
implying that the employee provide this
information to the railroad, which does
not make sense. Moreover, OSHA
requires employers to retain a record of
the employee’s most recent noise
exposure assessment (see 29 CFR
1910.95(m)(2)(e)), but FRA, in the
recordkeeping section, made a
conscious decision not to include this
requirement in FRA’s rule.
FRA specifically excluded, and
continues to exclude, the employee’s
most recent noise exposure, because the
workforce in question typically
experiences a relatively wide range of
exposures. Thus, there is no reason to
believe that any individual’s last
exposure data will be particularly
relevant to the evaluation of an
audiogram. Further, this rule authorizes
monitoring of exposures on a sampling
basis, so for any given employee, the
last exposure may not be available or
may be months or years out of date.
Section 227.109(h) provides the
follow-up procedures for subsequent
audiograms. Section 227.109(h)(1)
provides that a railroad shall notify an
employee if the railroad determines that
the employee has experienced a
standard threshold shift (STS). The
employer will be able to identify that a
STS has occurred by comparing the
employee’s baseline audiogram with the
employee’s periodic audiogram. A
railroad shall inform the employee in
57 OSHA Interpretation Letter from OSHA to Mr.
J. Christopher Nutter dated May 9, 1994.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
writing within 30 days of the
determination. FRA’s rule gives
railroads 30 days while OSHA’s rule
gives employers 21 days. See 29 CFR
1910.95(g)(8)(i). FRA’s rule provides
railroads with more time, because FRA
is taking into account the mobile
railroad workforce and railroads’
difficulty in providing notice to that
mobile workforce. Moreover, FRA
believes there is no substantial harm if
the railroads have an additional nine
days to notify employees.
Section 227.109(h)(2) identifies the
steps that a railroad should take if the
railroad learns that an employee has
experienced a standard threshold shift
and specifies further notification
procedures for subsequent audiometric
testing. It provides that ‘‘if subsequent
audiometric testing of an employee
whose exposure to noise is less than an
8-hour TWA of 90 dB indicates that a
standard threshold shift is not
persistent, the railroad shall inform the
employee of the new audiometric
interpretation and may discontinue the
required use of hearing protectors for
that employee.’’
Several commenters, including
Theresa Schulz, ASHA, AAA, AIHA,
CAOHC, and NHCA strongly opposed
the language in § 227.109(h)(3). Before
summarizing their comments, it is
necessary to provide a context for their
comments. According to § 227.115(c)(2),
a railroad must require the use of HP
when an employee is exposed to sound
levels that meet or exceed the action
level, and the employee has experienced
a STS and is required to use HP under
§ 227.109(h). However, according to
§ 227.109(h)(3), the railroad may
discontinue the required use of HP if an
employee’s STS resolves, i.e., is not
persistent. In other words, if the railroad
finds that an employee’s STS was only
a TTS (temporary threshold shift), then
the railroad need not require that
employee to continue wearing HP.
The commenters were opposed to
language in § 227.109(h)(3), and several
requested that FRA delete it. They
stated that it is illogical to discontinue
the use of HP if an STS is not deemed
persistent. They explained that a TTS is
an indication that intervention is
necessary, not that intervention should
be discontinued. AAA explained that ‘‘If
a retest indicates that hearing may have
improved due to the use of HP prior to
the retest, individuals should be aware
of the need to continue use of HP when
exposed to noise, rather than simply
ignore this early warning and continue
with the sloppy use of [personal
protective equipment].’’ Similarly,
AIHA wrote that a TTS may be an early
indication of a noise-susceptible
PO 00000
Frm 00033
Fmt 4701
Sfmt 4700
63097
employee. Rather than discontinue the
use of HP, the employer should see it as
an indicator that they need to intervene
and promote the effective use of HP by
offering a different selection of devices.
These commenters overwhelmingly
emphasized that to discontinue
intervention is to allow a TTS to become
a permanent threshold shift (or
permanent hearing loss) and that does
not further the goal of preventing
hearing loss. They wrote that the current
language in the rule means that
employers are merely documenting the
TTS, but not doing anything to prevent
further hearing loss. As Theresa Schulz
wrote, this provision ‘‘makes the
hearing conservation program an
hearing loss documentation program!!’’
CAOHC recommended a variation,
specifically that FRA require employees
who show a STS that is not persistent
but who are exposed to noise levels
between 85 and 90 dB(A) to use HP.
AAA also recommended a very similar
variation, suggesting that employees
who (1) show a STS that is not
persistent and (2) are exposed to <90
dBA TWA not be allowed to terminate
use of HP.
FRA, with the consensus of the RSAC
Working Group, has decided to leave
this provision as presented in the
proposed rule. FRA does not believe it
makes sense to change this provision
according to the commenters’
recommendations. If FRA adopted the
commenters’ recommendations, FRA
would create a ‘‘new class’’ of noiseexposed employees—that is, employees
who are exposed to noise below an 8hour TWA of 90 dB(A) and who do not
have an STS upon retest. Also, FRA
would require that ‘‘new class’’ of noiseexposed employees to wear hearing
protection all the time. As long as these
employees continued in the same job
and experienced the same noise
exposure, they would have to wear
hearing protection for the rest of their
working careers. That would be illogical
given that the STS could have been
caused by one or more conditions other
than hearing loss, e.g., poor technique,
an undetected illness that suppresses
hearing, an intentional effort to test
poorly, or some other non-noise related
condition. In addition, in order to
ensure that this ‘‘new class’’ of exposed
employees were in compliance, FRA
would have to require a new set of
records, which would impose an
additional recordkeeping burden on
railroads. Finally, this change would be
a significant departure from OSHA. FRA
adopted this provision from OSHA’s
general industry noise standard. See 29
CFR 1910.95(g)(8)(iii). Throughout this
rulemaking, FRA has followed OSHA’s
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63098
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
lead and veered from it only when FRA
thought it was necessary to
accommodate the unique aspects of the
rail industry or when there have been
advances in technology that warranted a
change. As OSHA is the lead agency in
this area and FRA does not see any
compelling reason to veer from OSHA’s
rule in this case, FRA is leaving this
provision as proposed.
Section 227.109(i) identifies the
methods which railroads should use to
revise baseline audiograms. The first
method, which is provided in
§ 227.109(i)(1), should be used by
railroads for the two years immediately
following the effective date of this rule.
It states that there are two situations
where a Professional Supervisor of the
Audiometric Monitoring Program may
substitute a periodic audiogram in place
of the baseline audiogram. The two
situations are: (1) the audiogram reveals
that the standard threshold shift is
persistent, or (2) the hearing threshold
shown in the periodic audiogram
indicates significant improvement over
the baseline audiogram. FRA adopted
this concept from OSHA’s general
industry noise standard. See 29 CFR
1910.95(g)(9).
At the suggestion of AAA and
CAOHC, FRA revised this section by
replacing the phrase ‘‘audiologist,
otolaryngologist, or physician’’ (which
was used in the NPRM) with the more
specific phrase ‘‘Professional Supervisor
of the Audiometric Monitoring
Program.’’ Professional Supervisor of
the Audiometric Monitoring Program is
defined in § 227.5. While the RSAC
Working Group agreed to add a
definition in the final rule for
‘‘Professional Supervisor of the
Audiometric Monitoring Program,’’ the
RSAC Working Group did not discuss
the substitution in this situation. FRA
has made this change, because it
ensures that the substitution in
§ 227.109(i) is made by a qualified
professional who understands hearing
loss. FRA made a similar change in
§ 227.109(e)(2)(iii).
The second method, which is
provided in § 227.109(i)(2), should be
used by railroads for the period of time
after the date that this rule has been in
effect for two years. This method is
virtually identical to the NHCA
Professional Guide for Audiometric
Baseline Revision (NHCA Guidelines).
NHCA recommended that FRA adopt
the NHCA Guidelines and use it to
better explain what OSHA meant in 29
CFR 1910.95(g) and what FRA now
means in § 227.109(i). AAA, CAOHC,
and Aearo Company also endorsed the
use of the NHCA Guidelines. According
to the commenters, NHCA developed
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
these guidelines in 1996 in response to
frustrations among hearing
conservationists who wanted
clarification of what OSHA intended for
baseline audiograms in its general
industry standard.58 The commenters
explained that the OSHA guidelines
lack precision. They explained that the
NHCA Guidelines, in contrast, provide
specific recommendations concerning
when audiometric baselines should be
revised. The NHCA Guidelines offer a
standardized method of determining
when baselines will be revised, and so
they assure consistency and uniformity
among professional reviewers. Several
commenters also noted that these
guidelines ‘‘have been commonly
accepted.’’
FRA agrees with the commenters that,
from a technical and programmatic
point of view, the information contained
in the NHCA Guidelines is very useful
information. OSHA is silent on this
issue, and these NHCA Guidelines
provide much-needed guidance in this
area. The NHCA Guidelines create a
consistent methodology for revising
baselines and in the process, make
FRA’s rule more clear. They fill the gap
that has developed since OSHA issued
its rule. And it fills the gap with a
document created by and widely
supported by the hearing conservation
community.
Accordingly, with the consensus of
the RSAC Working Group, FRA added
the NHCA Guidelines as Appendix C to
this final rule: ‘‘Audiometric Baseline
Revision.’’ FRA has made some edits to
the document to tailor them for FRA’s
use (e.g., changing ‘‘OSHA’’ to ‘‘FRA’’
and changing the ‘‘30-day retest’’ to a
‘‘90-day retest’’). The appendix is
initially non-mandatory, but the
appendix will become mandatory two
years from the effective date of the final
rule. The RSAC Working Group agreed
that this two-year period is a fair and
reasonable amount of time. It should
provide railroads with sufficient time to
make any necessary administrative
changes.
Section 227.109(j) addresses standard
threshold shifts. It provides that when
determining whether a standard
threshold shift has occurred, the
individual evaluating the audiogram can
consider the contribution of age
(presbycusis) to the change in hearing
level. The individual evaluating the
audiogram should use the procedure
described in Appendix F: ‘‘Calculation
and Application of Age Correction to
Audiograms.’’
58 The Executive Council of the National Hearing
Conservation Association approved these
guidelines on February 24, 1996.
PO 00000
Frm 00034
Fmt 4701
Sfmt 4700
Appendix F is a non-mandatory
appendix that employers can use to
calculate and apply age correction to
audiograms. Consistent with their 1998
criteria document, NIOSH submitted
comments, recommending that FRA
should not provide employers with the
option of using age-corrected hearing
levels to determine the presence or
absence of a STS. NIOSH explained that
‘‘it is statistically inappropriate to apply
aggregate data to individuals.’’ In
addition, NIOSH asserted that the
Appendix F tables are racially biased
and are discriminatory against persons
older than 60 years old. NIOSH
explained that the data sources for the
age correction tables in Appendix F
were surveys conducted in the late
1960s and early 1970s. The tables are
representative of Caucasian male and
female hearing thresholds from age 20 to
60 and therefore not of people of other
races and above 60 years old.
NIOSH went on to suggest that FRA
should make some changes to the agecorrection charts if FRA decides to use
age correction tables. Specifically,
NIOSH suggested that FRA make the
following adjustments—compute age
corrections based on hearing levels of
the 84th or 98th percentiles, i.e., mean
minus 1 or 2 standard deviations; use
tables that have representative agerelated changes for both genders of all
major ethnic groups; and use tables that
accurately represent age-related hearing
changes for workers over age 60. NIOSH
also recommended that, if FRA wishes
to use age correction tables, FRA should
use tables derived from the National
Health and Nutrition Examination
Survey (NHANES), a joint National
Institutes of Health (NIH)–Centers for
Disease Control (CDC) effort, in order to
ensure that the racial, gender, and age
specific corrections are valid.
AAA and NHCA also submitted
comments on this matter. Similar to
NIOSH, AAA and NHCA do not support
the use of the tables in Appendix F,
because they are racially biased and
discriminatory against persons greater
than 60 years old. AAA raised a separate
issue too. AAA asserts that the OSHA
method for permitting use of age
corrections (when computing STSs) is
not a best practice for identifying
meaningful changes in hearing. AAA
believes that age correction of
individual audiograms is
counterproductive to the goal of
detecting temporary hearing changes
before they become permanent hearing
losses. AAA asserts that a STS should
be a sentinel for identifying significant
changes in hearing.
On one hand, FRA understands that
there are problems with the historical
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
data used to create the tables in
Appendix F. It is older data that fails to
take into account racial differences or
the fact that people now have longer life
spans. On the other hand, FRA does not
have a viable alternative to use in place
of the tables in Appendix F.
NIOSH did not present FRA with a
viable alternative option. NIOSH did
recommend that FRA use data from
NHANES, but the NHANES effort is still
pending, so there is nothing conclusive
to use. There is no good scientific data
available yet. NIOSH also offered that its
scientists could provide technical
assistance to FRA. However, that is not
a feasible option for FRA either. FRA
has neither the resources nor the
expertise to conduct its own studies,
obtain the new data, and create new age
correction tables, even with NIOSH’s
technical assistance.
Since there is no viable replacement
for the Appendix F tables, FRA
considered the option of removing the
age correction charts completely.
Essentially, the age correct decision
would be left up to the professional
judgment of the Professional Supervisor
of the Audiometric Monitoring Program.
However, FRA decided that might do
more harm than good. Without these
tables, there would be absolutely no
guidance for Professional Supervisors,
and FRA would have created a gap.
Finally, OSHA, not FRA, is the lead
federal agency on this matter and OSHA
continues to use age correction charts.
FRA is reluctant to make such a radical
departure from OSHA at this time.
Given the above reasons and the fact
that these tables are non-mandatory,
FRA and the Working Group decided to
leave these tables as proposed in the
NPRM. When, and if, OSHA decides to
change these tables, FRA will consider
a change.
Section 227.111 Audiometric Test
Requirements
This section sets out the requirements
for audiometric tests. FRA used OSHA’s
standard at 29 CFR 1910.95(h) as a
starting point and then tailored the
provisions for FRA’s use.
Section 227.111(a) provides that
audiometric tests shall be pure tone, air
conduction, hearing threshold
examinations with test frequencies
including 500, 1000, 2000, 3000, 4000,
6000, and 8000 Hz. Tests at each
frequency shall be taken separately for
each year.
In the proposed rule, FRA sought
comment on whether FRA should add
the 8000 Hz frequency. Several
commenters, including AAA, CAOHC,
Aearo Company, NHCA, and NIOSH
recommended that FRA require
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
audiometric testing at the 8000 Hz
frequency. They explained that the
information provided by the 8000 Hz
threshold is valuable in determining the
classic ‘‘noise notch’’ pattern. It
enhances clinical decisions about the
probable etiology of hearing losses. In
order to determine that hearing loss is
related to noise exposure and is a
‘‘work-related hearing loss,’’ clinicians
must observe an audiometric notch at
4000 Hz or 6000 Hz. This notch cannot
be calculated without observing hearing
thresholds at 8000 Hz. In addition,
commenters noted that the cost, time,
and effort of adding one frequency per
test is negligible, particularly when
compared to the reviewer time lost
when a case’s status regarding workrelated, noise-induced hearing loss is
unclear.
Accordingly, FRA has decided, and
the RSAC Working Group has agreed, to
require audiometric testing at the 8000
Hz frequency. It is important to include
this frequency, because it will allow
employers to identify hearing loss
sooner. It is possible to include this
frequency because the technology to test
it is available while the time and effort
necessary to test it is negligible.
Moreover, railroads with hearing
conservation programs are probably
already testing at this frequency. It is
important to note that all existing tests
(i.e., tests conducted prior to this rule
and which did not include the 8000 Hz
frequency) are still considered to be
valid tests.
Section 227.111(b) provides that
audiometric tests shall be conducted
with audiometers that meet the
specifications of and are maintained and
used in accordance with ANSI S3.6–
2004, ‘‘Specification for
Audiometers.’’ 59 Aearo Company
brought to FRA’s attention the fact that
FRA had published an outdated ANSI
standard in the proposed rule (i.e., ANSI
S3.6–1996), FRA has since updated the
standard.
Section 227.111(b)(1) addresses the
requirements for pulsed-tone
audiometers. In the proposed rule, the
requirement for pulsed-tone
audiometers was found in § 227.111(c).
FRA has substantially revised this
requirement since the proposed rule.
For a discussion of the changes, see the
section-by-section analysis for
Appendix C to this part.
Section 227.111(b)(2) is new to this
final rule. This provision allows
railroads to use insert earphones while
conducting audiometric testing. Some
59 For a general discussion on the use of ANSI
standards in this rule, see the section-by-section
analysis for § 227.103(c)(2).
PO 00000
Frm 00035
Fmt 4701
Sfmt 4700
63099
commenters asserted that FRA had
allowed for the use of insert earphones
by adopting the updated ANSI standard
for audiometers (ANSI S3.6–2004) in
§ 227.111(b). They explained that ANSI
S3.6–2004 includes, among other things,
requirements for the use of insert
earphones and so therefore, FRA must
implicitly be allowing for the use of
insert earphones in § 227.111(b).
The commenters also discussed
OSHA’s position on insert earphones.
OSHA does not explicitly permit the use
of insert earphones in its standard
(although, as one commenter pointed
out, that is probably because this
technology did not exist at the time
OSHA promulgated its standard). In
fact, as indicated in a August 31, 1993
interpretation letter, OSHA considers
the use of insert earphones to be a
violation, albeit a de minimis one.
Employers who wish to use insert
earphones under OSHA standards can
do so and avoid a citation , however, if
they satisfy specified conditions (which
are listed in the August 31, 1993 letter).
Commenters concurred that OSHA’s
position on insert earphones is difficult
with which to contend. One commenter
specifically wrote that OSHA has made
the use of insert earphones difficult in
industrial settings.
Overwhelmingly, commenters praised
the idea of permitting the use of insert
earphones. Commenters pointed out
that insert earphones are increasingly
used in hospital-based and clinical
practices, and so it is logical to permit
their use in the regulation. Aearo
Company wrote that insert earphones
not only provide the same level of test
validity and reliability as supra-aural
headphones but eliminate several of the
most vexing limitations of supra-aural
earphones. AAA noted that it is
desirable to use insert earphones since
they provide better isolation of the
stimulus (than supra-aural headphones)
from the ambient room noise. AAA also
wrote that insert earphones provide
significant advantages in testing patients
with background noise levels, with
asymmetrical hearing loss, and with
collapsing canals, and for reducing
cross-contamination in cases of external
ear canal infections.
The RSAC Working Group considered
the issue of insert earphones. The
members felt strongly that FRA should
not require the use of insert earphones.
The Working Group members explained
that there were logistical problems with
their required use. Railroad contractors
who perform hearing tests do not
generally use insert earphones, because,
among other things, they have to keep
several different types of tips and that
becomes too difficult when they are
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63100
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
operating out of mobile vans. As well,
there are data problems with using
insert earphones. The data from tests
with insert earphones and tests with
supra-aural headphones would not be
comparable since the testing conditions
for each vary. Despite these problems,
the Working Group agreed that insert
earphones are a useful and emerging
technology and wanted to provide
railroads with the option of using them.
The Working Group recommended that
FRA permit their use but left it to FRA
to work out the details.
Consistent with the Working Group’s
recommendation, FRA is allowing
railroads to avail themselves of this new
technology. FRA could have relied on
the implication in § 227.111(b) that
permits the use of insert earphones, but
FRA believes that is too ambiguous. To
avoid ambiguity, § 227.111(b)(2) of this
rule explicitly permits the use of insert
earphones. Although FRA is not
mandating the use of insert earphones,
when they are in fact used, they must
be used consistent with the
requirements listed in Appendix E:
‘‘Use of Insert Earphones for
Audiometric Testing.’’ In drafting the
requirements for Appendix E, FRA used
the conditions from OSHA’s August 31,
1993 letter as a starting point and
tailored them to meet FRA’s needs. Of
note are the background sound level
requirements for insert earphones. They
are discussed below in the section-bysection analysis for § 227.111(c).
Section 227.111(c) provides that
railroads should administer audiometric
examinations in rooms that meet the
requirements listed in Appendix D:
‘‘Audiometric Test Rooms.’’ Appendix
D specifies that employers shall use
rooms that do not have background
sound pressure levels that exceed the
levels in Table D–1 of Appendix D.
Railroads are required to measure sound
pressure levels with equipment
conforming to at least Type 2
requirements of ANSI S1.4–1983
(Reaffirmed 2001), ‘‘Specification for
Sound Level Meters’’ and to the Class 2
requirements of ANSI S1.11–2004,
‘‘Specification for Octave-Band and
Fractional-Octave-Band Analog and
Digital Filters.’’ 60 Note that FRA has
updated the octave-band filter ANSI
standard from the outdated standard
used in the proposed rule, ANSI S1.11–
1971 (R1976) ‘‘Specification for Octave,
Half-Octave, and Third-Octave Band
Filter Sets.’’
Several commenters asserted that the
background noise levels in Table D–1 of
Appendix D are too high. The
commenters explained that excessive
background noise levels in the room can
interfere with an individual’s ability to
detect stimuli. As a result, clinicians do
not know whether hearing shifts are
valid or are caused by interfering
background noise. In addition, Aearo
Company explained that the Appendix
D levels, which FRA adopted from
OSHA, are outdated. Aearo Company
explained that the OSHA requirements
were based on a 1960 ANSI standard
and its values were based on
audiometric zero as defined in 1951.
The 1951 threshold values are about 10
dB less sensitive than today’s values,
and the science behind the 1960
permissible noise standard was not as
well developed.
The commenters proposed various
alternatives. Theresa Schulz
recommended that FRA adopt the
background noise levels specified by the
DOD in their Instruction 6055.12 (DOD,
1996). AAA, NHCA, ASHA, and Aearo
Company recommended that FRA adopt
the compromise position established by
NHCA—that is, adopt the latest ANSI
standard on background noise levels,
ANSI S3.1–1999, ‘‘Maximum
Permissible Ambient Noise Levels for
Audiometric Rooms’’ but with a 5 dB
relaxation at 500 Hz.61 NIOSH suggested
that FRA adopt the ANSI S3.1–1999
standard for testing frequencies of 1000
to 8000 Hz but did not assert a position
on how FRA should handle 500 Hz.
With respect to the ANSI S3.1–1999
standard, the commenters were
concerned about railroads’ ‘‘real world’’
ability to comply with ANSI S3.1–1999,
specifically the maximum noise level at
500 Hz. They pointed out that studies
have shown that a large percentage of
audiometric booths and test vans would
fail those requirements at 500 Hz.
Mobile facilities did not fail, however,
when the requirement for 500 Hz was
relaxed. Aearo Company also pointed
out that the 5 dB relaxation has minimal
negative effect. Aearo Company
explained that ambient background
noise is typically high at 500 Hz and at
the same time, occupational noise
exposure has little measurable effect on
the hearing thresholds that are masked
(i.e., elevated) by those background
noise levels.
By contrast, one commenter, Michael
Fairchild and Associates suggested that
the proposed Appendix D is a workable
solution. He asserted that the proposals
from the various professional
organizations are ‘‘neither workable in a
60 For a general discussion on the use of ANSI
standards in this rule, see the section-by-section
analysis for § 227.103(c)(2).
61 This relaxes the 1991 ANSI requirements by 3.5
dB (and the current 1999 ANSI standard by 5 dB)
to a value of 24.5 dB.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
PO 00000
Frm 00036
Fmt 4701
Sfmt 4700
real world environment nor necessary.’’
He explained that the very low ambient
sound levels suggested by the
professional organizations are necessary
for clinical diagnosis and research but
not for occupational hearing
conservation screening tests. He also
explained that audiometric testing in a
rail yard can be difficult under the
current OSHA standards. Given the
noise in the rail yard environment,
clinicians often have to stop and re-start
the test or move the test away from the
work area. Both increase employee
travel time and costs.
The RSAC Working Group discussed
this issue of background sound levels at
the post-NPRM meeting. The Working
Group identified three options: (1) Use
the OSHA background sound levels
found in Appendix D, (2) use the more
stringent standards (i.e., lower levels)
found in ANSI S3.1–1999 or (3) use a
modified version of the ANSI S3.1–1999
standard (i.e., relax 500 Hz by 5 dB).
Railroad representatives of the
Working Group were concerned that
they would experience substantial
administrative difficulties if they had to
comply with ANSI S3.1–1999 standard.
One representative explained that, when
this rule goes into effect, some railroad
employees will be covered by the OSHA
HCA while others will be covered by
FRA. If FRA adopted the ANSI standard,
railroads would have to test some
employees with existing equipment that
meets the OSHA standards and others
with new equipment that meets the
ANSI standard. There would also be
difficulties with mobile test vans.
Mobile test vans are already set to the
OSHA standards, so all vans would
have to be re-worked to accommodate
the ANSI standards. AAR
representatives stated that they do not
know of any vans currently available on
the market that are set to the new ANSI
standard. In addition, some Working
Group members pointed out that, given
the noise environment in a rail yard, it
is often difficult to perform audiometric
tests using OSHA’s background sound
levels. To change the requirements to
ANSI’s more stringent standard would
be even more difficult. Overall, the
Working Group felt strongly that it was
difficult to expect employers to switch
between the standards in Appendix D
and the latest ANSI standard. As a
result, FRA decided to leave the
requirements as proposed—that is,
railroads should comply with the
background sound levels that FRA
adopted from OSHA and placed in
Appendix D.
A related issue is the background
sound levels for insert earphones. As
several commenters pointed out, insert
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
earphones provide more attenuation
than supra-aural headphones and so the
background sound levels can be higher
when hearing tests are performed with
insert earphones. Accordingly, the
relevant ANSI standard (ANSI S3.1–
1999) sets higher background levels for
insert earphones. The RSAC Working
Group members discussed this issue at
the post-NPRM meeting. The Working
recommended that FRA allow the use of
insert earphones but left it to FRA to
implement the requirements for their
use.
FRA considered two options for
background sound levels for insert
earphones: (1) the Appendix D levels
which FRA adopted from OSHA (and
which apply to supra-aural headphones)
or (2) the levels in ANSI S3.1–1999.
FRA has decided to use the background
noise levels specified in ANSI S3.1–
1999. Note, however, that FRA is not
adopting ANSI S3.1–1999 in whole (and
specifically not the background noise
levels for supra-aural headphones). FRA
is merely adopting the background noise
levels from ANSI S3.1–1999 as they
relate to insert earphones. FRA has
placed the noise levels for insert
earphones in a new row in Table D–1
of Appendix D. The background noise
levels for insert earphones are higher
than the background noise levels for
supra-aural earphones. This is due to
the fact that insert earphones provide
higher attenuation.
Section 227.111(d) addresses the
calibration of audiometers. Section
227.111(f)(1) requires a check of the
audiometer’s functional operation
before each day’s use. This requirement
is slightly different than the related
provision in OSHA’s standard. In
OSHA’s rule, the audiometer must be
checked by testing a person with
known, stable hearing thresholds. In
FRA’s rule, the audiometer can be
checked by either a person or with an
appropriate calibration device.
Section 227.111(d)(2) requires an
acoustic calibration annually. This
section also directs railroads to perform
the acoustic calibration in accordance
with ANSI S3.6–2004.62 Just as FRA
replaced ANSI S3.6–1996 with ANSI
S3.6–2004 in § 227.111(b), so FRA has
done here. FRA made this change at the
recommendation of a couple of
commenters and with the agreement of
the RSAC Working Group.
Upon replacing the information in
Appendix E with the requirement to
comply with an ANSI standard, FRA
realized that most of the information in
62 For a general discussion on the use of ANSI
standards in this rule, see the section-by-section
analysis for § 227.103(c)(2).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
the proposed Appendix E: ‘‘Acoustic
Calibration of Audiometers’’ was
outdated and unnecessary. The
information in the proposed Appendix
E had come from OSHA’s Appendix E,
and most of that information, in turn,
appears to have come from ANSI S3.6–
1969. FRA deleted that outdated
information. FRA has placed in
§ 227.111(d)(2) the requirement that
railroads comply with ANSI S3.6–2004.
FRA has also included some
particularly salient parts of the ANSI
standard and provided them in
§ 227.111(d)(2).
FRA notes that this updated ANSI
standard includes procedures for the
calibration of audiometers with insert
earphones. FRA expects that railroads
who elect to use insert earphones will
follow those calibration procedures.
Section 227.111(d)(3) requires an
exhaustive calibration, performed in
accordance with ANSI S3.6–2004, once
every two years for audiometers not
used in mobile test vans and once a year
for audiometers used in mobile test
vans. This stricter requirement for
mobile vans is necessary because of the
nature of mobile service work. Mobile
vans are constantly in movement, and
thus the audiometric equipment in
those mobile vans are subject to greater
mechanical stress. An exhaustive
annual calibration will ensure that the
audiometer is continually producing
accurate test results. Moreover, the cost
of such a calibration is low. Because of
that, FRA concluded that the minimal
cost of this stricter requirement would
be easily offset by the assurance of more
accurate test data.
Theresa Schulz commented on this
stringent mobile van requirement,
noting that it helps to maintain quality
in a difficult-to-control environment.
She went further, suggesting that FRA
require ‘‘daily listening checks’’ that
railroads should conduct whenever they
move equipment or turn it on or off.
While FRA believes it’s important to
have more stringent standards for
mobile test van audiometers, however,
FRA does not believe it is necessary to
go so far as to require daily listening
checks. FRA believes the exhaustive
annual calibration for mobile test vans
is sufficient.
Section 227.113 Noise Operational
Controls.
This section addresses noise
operational controls. Operational
controls refer to efforts to limit workers’
noise exposure by modifying workers’
schedules or locations or by modifying
the operating schedule of noisy
machinery. Examples of operational
controls include, but are not limited to,
PO 00000
Frm 00037
Fmt 4701
Sfmt 4700
63101
the following: placement of a newer
(i.e., quieter) locomotive in the lead;
rotation of employees in and out of
noisy locomotives; and variation of
employee’s routes, e.g., rotation of
employees on routes that have many
grade crossings (which means that the
horn is sounded more often).
Operational controls are beneficial,
because they help reduce the total daily
noise exposure of employees, thereby
reducing the harmful cumulative effects
of noise. They also make the
environment safer and take the burden
off the employee to protect himself or
herself.
Noise operational controls are the
functional equivalent of OSHA’s term
‘‘administrative controls.’’ Unlike
OSHA, FRA does not mandate the use
of controls. This difference is rooted in
practicality. In general industry, if an
employee’s noise exposure is too high,
an employer can often simply move the
employee to a different location. That
option is not necessarily available in the
railroad industry. Certain railroad
employees, by the nature of their job,
are limited as to their ability to be
moved to a quieter location. For
example, locomotive engineers have to
work in a locomotive, which can be
noisy. Management can rotate
employees through a quieter locomotive
or a quieter route, but even those
options are limited, given that
locomotives are constantly moving
throughout the country and a quieter
locomotive might not be available or a
quieter route might not exist on a
particular day for a particular employee.
Because there are far fewer options in
the railroad industry for employing
operational controls, FRA did not
mandate the use of noise operational
controls in this rule.
This section provides that railroads
may use noise operational controls to
reduce noise exposures to levels below
those required by Table A–1 of
Appendix A of this part and that
railroads are encouraged to use noise
operational controls when employees
are exposed to sound exceeding an 8hour TWA of 90 dB(A). This section has
been revised slightly since the proposed
rule. The revision does not make any
substantive changes; it merely ensures
that the regulatory language
accomplishes what FRA had intended
and what FRA had expressed in the
preamble to the proposed rule. In
particular, railroads may consider noise
operational controls at any point in
time. The proposed rule provision had
implied that railroads should wait until
sound reaches an 8-hour TWA of 90
dB(A) before using or considering noise
E:\FR\FM\27OCR2.SGM
27OCR2
63102
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
operational controls, and that is not the
case.
As stated above, railroads have the
option of using noise operational
controls. Railroads can use noise
operational controls, by themselves, to
lower the total noise exposure (as long
as the total noise exposure does not
exceed 90 dB(A) as an 8-hour TWA, in
which case the railroad must also
require hearing protection). Railroads
can also use noise operational controls
in combination with the other controls.
Those other controls include FRA’s
design, build, and maintenance
requirements (i.e., those items found in
§ 229.121, through which FRA has
embodied OSHA’s concept of
engineering controls). FRA realizes
operating requirements and labor
agreements may affect a railroad’s
ability to use noise operational controls;
nevertheless, FRA would like railroads
to remain open to their use.
While noise operational controls will
be an option for all railroads, FRA
expects that the smaller railroads will be
in the best position to use them and
benefit from the flexibility that they
provide. Small railroad work is
characterized by more limited hours of
operation and more flexible work rules,
and thus it is more conducive to the use
of operational controls. Noise
operational controls are even more
useful to small railroads since they
rarely have the opportunity to
implement engineering controls. Unlike
larger railroads, small railroads
infrequently buy new locomotives or
rebuild old locomotives.
A couple of commenters, including
ASHA and AIHA, submitted comments,
supporting FRA’s decision to make
noise operational controls optional
rather than mandatory. The commenters
point out that administrative controls
have proven to be problematic in
general industry. They explain that
administrative controls tend to take a
secondary role to production
requirements and that they have been
difficult to administer and enforce.’’
rmajette on PROD1PC67 with RULES2
Section 227.115
Hearing Protectors
This section addresses hearing
protectors (HP), another measure that
can be used to minimize employee
exposure to noise in the locomotive cab.
The term ‘‘hearing protector’’ is defined
in § 227.5. Hearing protectors can be
divided into three main categories: (1)
Ear plugs that are placed in or against
the entrance of the ear canal to form a
seal and block sound; (2) ear muffs that
fit over and around the ears to provide
an acoustic seal against the head; and
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
(3) helmets that encase the entire
head.63
FRA has reorganized § 227.115 since
the proposed rule. The content remains
the same; however, the section is
structured differently. This was brought
about by Aearo Company’s comment
that the proposed §§ 227.115(a) and
227.115(c)(1) were redundant. By
reorganizing the section, FRA believes it
has removed the redundancy and also
made this section more clear. Paragraph
(a) contains the general requirements for
hearing protectors, while paragraphs (b)
through (d) address employee use of
hearing protectors.
Section 227.115(a) contains the
general requirements for hearing
protectors. Railroads are required to
provide hearing protectors to employees
at no cost (§ 227.115(a)(1)) and replace
hearing protectors as necessary
(§ 227.115(a)(2)). These requirements are
similar to the comparable provision in
OSHA’s standard, which is found at 29
CFR 1910.95(i).
Section 227.115(a)(3) is unique to
FRA’s rule; there is no comparable
provision in OSHA’s rule. This
provision requires railroads to consider
two important factors when offering
(and requiring) hearing protectors: (1)
Employees’ ability to understand and
respond to voice communications, and
(2) employees’ ability to hear and
respond to audible warnings. This
requirement addresses FRA’s concern
that the overuse of hearing protection
may be counter-productive, especially
for employees with existing hearing
loss. For example, an employee who is
exposed to a TWA of 85 or 86 dB(A)
should not wear HP that provides 30 dB
in noise reduction, because that will
reduce the employee’s hearing ability
and thus the employee’s ability to listen
and communicate in the cab. The ability
of these employees to discriminate
speech and recognize other auditory
cues is critical to avoiding train
accidents and incidents.
FRA specifically sought comments
from the public on this issue. In general,
commenters supported this provision.
ASHA, Theresa Schulz, and AIHA
submitted similar comments,
applauding FRA’s recognition of the
potential adverse impacts of
overprotection. They explained that
overprotection is prevalent because
‘‘purchasing authorities often * * *
operate under the false assumption that
higher noise reduction is better—
regardless of local exposure conditions
and need.’’ They noted that a ‘‘one size
fits all’’ approach for HP is
inappropriate. They explained that
63 Berger
PO 00000
at 383.
Frm 00038
Fmt 4701
Sfmt 4700
employers instead need to consider
several factors-including an employee’s
comfort, an employee’s ability to
understand and respond to voice and
radio communication, and an
employee’s ability to hear and respond
to audible warnings—when selecting HP
for an employee. Theresa Schulz noted
that these two new considerations that
FRA added (i.e., an employee’s ability to
hear and respond to (1) voice
communication and (2) audible
warnings) are important considerations
that directly address the problem of
overprotection.’’ Overall, these
commenters expressed their belief that
employees will be safer and more
satisfied with HP if overprotection is
limited or eliminated.
NHCA also applauded FRA for
including this language. NHCA
suggested that the use of lowattenuating devices or flat-attenuating
devices may be an option to address the
problem of employees’ inability to
understand and respond to voice radio
communications and audible warnings.
Likewise, an individual railroad
operating employee with 35 years of
engine service submitted comments
applauding FRA’s efforts with this rule.
While he didn’t specifically link his
comment to this provision, he raised a
point directly related to it. He
acknowledged that he sometimes has
difficulty hearing the alerter when he is
wearing his hearing protection.
Another commenter, Aearo Company,
initially explained that, based on their
experience, the problem is usually
inadequate use of HP, not overuse of
HP. While responding to the preamble
discussion on avoiding excessive
reflexive use of HPs, Aearo Company
asserted that the ‘‘problem is truly one
of getting those in need to be protected
without focusing undue attention on the
few who may be wearing hearing
protection that need not be.’’ However,
further in their comments, Aearo
Company noted that ‘‘FRA’s interest in
accommodating hearing loss and use of
HPs in moderate noise is well founded.’’
Aearo Company pointed to data
supporting FRA’s provisions; Aearo said
that the studies have found that the use
of HPs in lower-level noise increases the
likelihood that the HPs ‘‘will interfere
with the audibility of warning signals
and communication, especially for the
hearing impaired.’’ Similar to the
comments mentioned above, Aearo
Company noted that ‘‘simple blanket
recommendations are not possible.’’
Aearo Company suggested that it is
generally necessary to do case-by-case
analyses for each critical
communication scenario and that such
an analysis might include speech
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
intelligibility or signal detection testing
in a simulated occupational noise
environment, as well as the services of
a consulting audiologist.
Similarly, Wilson, Ihrig, & Associates
had a mixed reaction. They agreed with
FRA that employees with existing
hearing loss will have more problems
communicating with HPs and that a 30
dB noise reduction for a employee with
existing hearing loss would be
inappropriate. However, Wilson, Ihrig,
& Associates then asserted that a 30 dB
noise reduction is unlikely even if the
NRR rating indicated such. Wilson,
Ihrig, & Associates explained that ‘‘FRA
should assume the reduction indicated
in the NIOSH recommended standard
document. [Accordingly,] it would
appear that over protection would be a
minor problem and that the main
problem is outfitting a population of
workers who already have hearing loss,
where it is a problem of bad signal to
noise ratio that precludes proper
communication.’’
In addition to the above comments,
Aearo Company had an organizational
suggestion. Aearo Company suggested
that the concept in § 227.115(a)(3)
(which requires consideration of
communications ability) would work
better as the latter part of the proposed
§ 227.115(a)(4) (which requires railroads
to provide a variety of hearing
protectors). While FRA did not merge
the two concepts, FRA has re-organized
the section. As part of that
reorganization, these two concepts are
now back-to-back. FRA believes that
change addresses the intent of Aearo
Company’s comment; it makes these
concepts more understandable.
In the NPRM, FRA sought comment
from the public on a related matter—the
potential use by railroads of a
mandatory hearing protection provision
as a disciplinary tool. During pre-NPRM
Working Group meetings, some labor
members of the RSAC Working Group
stated that they were uneasy with the
HP requirement in § 227.115(a)(3). They
worried that railroads might use a
mandatory HP provision as a
disciplinary tool or as a means for
harassing an employee. They were also
concerned that compliance could
ultimately erode as a result of this
provision and employees would
encounter even worse noise exposure,
i.e., if railroads were to unnecessarily
mandate the use of HP, employees who
find HP uncomfortable would stop
wearing them altogether and receive
even less hearing protection.
The commenters on this subject did
not seem to think this would be a
problem. ASHA and AIHA noted that
the use of HPs should be considered in
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
the same light as all other mandatory
personal protective equipment. They
also noted that ‘‘enforcement of this
policy should be uniform and
consistent’’ and that neither labor nor
management should view the use of HP
as punitive or as a disciplinary tool.
Aearo Company was surprised by this
statement, explaining that it is
unsupported by literature. Aearo
Company explained that ‘‘discipline
may certainly be needed for those who
fail to wear their safety products, but
viewing the required use of safety
products as discipline is
counterproductive.’’ Aearo Company
went on to explain that individuals who
have studied and written on this topic
emphasize the need for ‘‘strong
enforcement, good motivation, and the
development of a safety culture within
an organization.’’
The AAR also submitted comments
similar to those they had made at the
RSAC Working Group meetings. They
wrote that they supported these
requirements; however, they disagreed
with a comment made by FRA in the
preamble discussion accompanying this
provision in the NPRM. The AAR noted
that during Working Group meetings,
there was an open exchange of ideas
and opinions, some of which were
ultimately rejected by the Working
Group. With respect to labor’s concern
that a mandatory HP provision could be
used as a disciplinary tool, the AAR
says they explained, during the Working
Group discussions, that most railroads
have had mandatory HP requirements
and many of the requirements have been
in place for 20 years. The AAR says they
invited FRA or labor ‘‘to provide
examples of any abuse of these rules,
and none were forthcoming.’’ ‘‘Given
this background, AAR believes that it is
inconsistent with the history and spirit
of the RSAC process to include a
comment like this in the NPRM.’’
Given FRA’s belief that § 227.115(a)(3)
is a valuable addition to FRA’s noise
standard, coupled with the
overwhelming positive response that
FRA received from the public, FRA is
leaving this provision as proposed in
the NPRM. FRA believes there are many
beneficial aspects to the use of HP
especially when employers carefully
select an employee’s HP (i.e., consider
the employee’s ability to understand
and respond to communications and
warnings).
Section 227.115(a)(4) provides that
‘‘The railroad shall give employees the
opportunity to select their hearing
protectors from a variety of suitable
hearing protectors. The selection shall
include devices with a range of
attenuation levels.’’ The first sentence of
PO 00000
Frm 00039
Fmt 4701
Sfmt 4700
63103
this paragraph is identical to OSHA’s
rule. See 29 CFR 1910.95(i)(3). The
second sentence is unique to FRA’s rule.
The requirements in both sentences
underscore the importance of railroads
offering employees with sufficient
options—a variety of hearing protectors
with a range of hearing attenuation
levels. FRA believes that providing a
choice of suitable devices increases the
likelihood that the employee will use
the device as required.
FRA received various comments
about the phrase ‘‘variety of suitable
hearing protectors’’ in the first sentence.
Overwhelmingly, commenters noted
that the rule does not define the term
‘‘variety’’ and requested that FRA
provide a definition. Aearo Company
pointed out that OSHA’s regulation did
not adequately define ‘‘variety’’ and as
a result, OSHA has had to issue
subsequent interpretations.
Several commenters provided specific
suggestions as what a ‘‘variety’’ should
be. Aearo Company wrote that a choice
between two protectors, as per OSHA’s
HCA, is inadequate because ‘‘it fails to
provide sufficient choice to assist in
persuading the employee that they are a
welcome participant in the HCP, and
hence to encourage their ‘buy-in’ to the
program.’’ Aearo Company noted that a
2000 study and MSHA both recommend
a minimum of four devices. ASHA,
Theresa Schulz, and AIHA submitted
similar comments, all suggesting that
FRA require employers to provide a
minimum number of HPs, i.e., ‘‘at least
four different models of HPs with an
appropriate range of attenuation levels
including at least two types of earplugs
and one type of earmuff.’’ ASHA
explained that the effectiveness of a
HCP is dependent on the workers’
willingness to wear HPs. By ensuring
that workers have sufficient options, it
increases the likelihood that workers
will willingly wear their HP. NHCA
made a similar suggestion, though with
slightly different language. NHCA wrote
that railroads should be required to
‘‘offer a minimum of four hearing
protection devices (HPDs), including at
least two different styles of plugs (e.g.,
foam and flanged), and at least one type
of earmuff.’’
Aearo Company went further,
explaining that ‘‘suitable variety’’ refers
to more than just providing HPs with a
range of potential levels of protection; it
also means that an employer should
provide HPs with differing feels and
ergonomic characteristics. As Aearo
Company wrote, ‘‘a ‘menu’ of options
from which to choose conveys to
employees that their opinion counts,
and this in turn will enhance their
feelings of self-efficacy and the
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63104
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
likelihood of wearing their HPs
consistently and properly.’’
At the meeting to discuss public
comments, the Working Group
considered these recommendations. The
Working Group recommended that the
rule should remain as stated in the
NPRM, i.e., to refrain from specifying a
minimum number of HPs which an
employer must offer. FRA agrees and is
reluctant to specify a minimum number
as representing a ‘‘variety,’’ because
FRA is concerned that employers may
interpret that number as a maximum
rather than a minimum. In addition,
FRA wants to provide employers with
the flexibility to consider the specific
working environment of their
employees. By specifying a number,
FRA would be greatly limiting the
employer’s flexibility.
FRA, however, would like to clarify
the meaning of ‘‘variety.’’ When offering
hearing protectors, employers should
offer employees several different types,
whether ear plugs, ear muffs, and/or
electronic headsets. Within any given
type, the employer should offer several
different designs and models. For
example, with respect to ear plugs, there
are several options, including, but not
limited to, roll down foam earplugs,
push-in foam earplugs, premoldedflanged earplugs, premolded-unflanged
earplugs, banded ear protectors. The
employee should have the opportunity
to try a variety of devices, so that he can
determine what fits best and most
comfortably.
Railroad industrial hygiene
representatives of the Working Group
indicated that a lack of variety of HP has
not been a problem in the past, and they
do not foresee that it will be a problem
in the future. Several of the major
railroads indicated that they have
developed practices that seem to work.
One railroad industrial hygienist noted
that he tries to keep a large variety of
hearing protectors readily available for
employees. Another railroad industrial
hygienist explained that he tries to work
with employees on an individual basis
if the employee has a special need, such
as a STS.
As further guidance, FRA is including
the hearing protector selection criteria
set forth in the report of the NHCA Task
Force on Hearing Protector Effectiveness
in 1995. FRA included this information
at the suggestion of the NHCA. ‘‘No
single HPD characteristic, such as
attenuation (as represented by the
present NRR), or any other feature,
should be the sole arbiter influencing
selection of an HPD. The most critical
consideration in selecting and
dispensing a hearing protector is the
ability of the wearer to achieve a
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
comfortable noise-blocking seal, which
can be consistently maintained during
all noise exposures. Additional
important issues include: The noise
reduction of the device, the wearer’s
daily equivalent noise exposure,
variations in noise level, user
preference, communication needs,
hearing ability, compatibility with other
safety equipment, the wearer’s physical
limitations, climate and other working
conditions, and HPD replacement, care
and use requirements.’’
FRA also received a comment about
the ‘‘range of attenuation levels’’
language found in the second sentence
of § 227.115(a)(4). Aearo Company
explained that the provision ‘‘range of
attenuation levels’’ is helpful but too
vague. Aearo Company is concerned
that an employer ‘‘could easily interpret
a range of attenuation values as being
only 27–33 dB, just as likely as being
from 12–33 dB,’’ and so they suggested
some alternative language. FRA decided
not to adopt Aearo Company’s suggested
language. The Working Group agreed,
but recommended that FRA include
more guidance in the preamble.
As used in this paragraph (a)(4), a
‘‘range of attenuation levels’’ means that
an employer should provide HP types
with ranges that are sufficient to protect
the employee from the level of noise
expected but still permit the employee
to communicate effectively for the job.
In addition to offering devices with high
attenuation, railroads should offer
devices with low or moderate
attenuation. Low or moderate
attenuation devices further safety by
facilitating communication and the
detection of audible cues in the
workplace. FRA expects that railroads
will employ or consult professionals,
such as industrial hygienists, who can
guide employees in their selections and
ensure that employees are adequately
protected.
Section 227.115(a)(5) provides that
railroads shall provide training in the
use and care of all hearing protectors
provided to employees. This section sets
out the general requirement that
railroads must train employees on the
use and care of HP. Section 227.119
addresses this issue further. It requires
railroads to have a training program that
includes, among other things,
instructions on selection, fitting, use,
and care of hearing protectors. See
§ 227.119(c)(4). FRA did not receive any
comments on § 227.115(a)(5), and
accordingly FRA has left this provision
as proposed.
Section 227.115(a)(6) provides that
railroads shall ensure proper initial
fitting and supervise the correct use of
all hearing protectors. NHCA
PO 00000
Frm 00040
Fmt 4701
Sfmt 4700
commented on this provision, noting
that the initial fitting is critical. NHCA
explained that employers often gloss
over the HPD fitting and simply tell
employees to ‘‘follow the directions on
the package.’’ NHCA wrote that ‘‘the
employee should be given the
opportunity [at the proper fitting] to
sample a variety of HPDs to determine
the proper fit, comfort, preference,
appropriateness, and ability to use
correctly.’’ FRA agrees that it is
important that employers take the time
and effort with employees at their initial
fitting to ensure that the employees have
the proper HP.
Sections 227.115(b) through (d)
address the use of hearing protectors by
employees. Section 227.115(b) requires
railroads to make hearing protectors
available to all of its employees exposed
to noise at or above the action level.
Section 227.115(c) provides that
railroads shall require the use of HP
where employees are exposed to sound
levels that meet or exceed the action
level, and the employee has not yet had
a baseline audiogram established
pursuant to § 227.109 or the employee
has experienced a STS and is required
to use HP under § 227.109(h). Section
227.115(d) provides that railroads shall
require the use of HP when an employee
is exposed to sound levels equivalent to
an 8-hour TWA of 90 dB(A) or greater.
The HP should be used to reduce sound
levels to within the levels required by
§ 227.105 and Appendix A to § 227.105.
Note that, since FRA has removed Table
1 (to § 227.105) from the rule, FRA has
removed the reference to Table 1 here in
§ 227.115(d). FRA received some
comments suggesting that FRA reorganize the proposed §§ 227.115(a) and
(c). FRA has done so and believes that
this section is now easier to understand.
Section 227.117 Hearing Protector
Attenuation
Section 227.117(a) provides that a
railroad shall evaluate HP attenuation
for the specific noise environments in
which the protector will be used and
directs that a railroad shall use one of
the methods described in Appendix B to
this part, ‘‘Methods for Estimating the
Adequacy of Hearing Protector
Attenuation.’’ Those methods include:
derating by type, Method B from ANSI
S12.6–1997 (Reaffirmed 2002), and
objective measurement.
This is a change from the proposed
rule. In the NPRM, FRA had adopted
OSHA’s Appendix B to 29 CFR 1910.95,
which provided for the following
methods: Noise Reduction Rating (NRR),
and NIOSH methods #1, #2, and #3.
There were two main issues with
respect to the changes to this section:
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
the inclusion of Method B as an
acceptable method and the overall
revision of Appendix B.
In the NPRM, FRA had not included
Method B but had sought comment on
whether FRA should include it. Method
B refers to the use of ‘‘subject-fit’’
attenuation data measured according to
Method B from ANSI S12.6–1997
(Reaffirmed 2002). That ANSI standard,
‘‘Methods for Measuring Real-Ear
Attenuation of Hearing Protectors,’’
‘‘provides attenuation estimates based
on the responses of subject who are
given the manufacturer’s directions and
are told to fit the device themselves as
best they can.’’ 64 Instead of the
traditional method of obtaining
attenuation estimates, which uses
experimenters who fit highly trained
subjects, this method uses subjects that
are untrained in the fitting of hearing
protectors. Arguably, ‘‘the NRR derived
from Method B more closely resembles
the real-world performance of hearing
protectors.’’ 65
Several commenters responded to
FRA’s request for comment, stating that
FRA should allow railroads to use
Method B as a method for evaluating
hearing protector noise reduction. The
president and principal of Wilson, Ihrig,
& Associates explained that, based on
his experience as a consultant, of those
individuals who had filed hearing loss
claims, most who used HP had done so
without any explicit training. Thus,
Wilson et al. explained, ‘‘determining
the attenuation without training or with
only verbal training would provide a
very valuable tool with respect to the
actual attenuation achieved under
actual field conditions.’’
Similarly, ASHA and AIHA agreed
with FRA’s assessment that Method B
more closely resembles the real-world
performance of hearing protectors and
supported its inclusion in Appendix B.
They explained that hearing protector
ratings included in the NRR are based
on data obtained under optimal
laboratory conditions and therefore
differ greatly from the noise reduction
that employees actually experience on
the job. They pointed to a few studies,
including one that ‘‘demonstrated that
having untrained subjects fit their own
hearing protectors provided much better
estimates of the hearing protectors’
noise attenuation in the workplace than
having the experimenter fit them.’’
Theresa Schulz went further, explaining
that there are other methods available to
test the ‘‘real world’’ performance of
64 Council for Accreditation in Occupational
Hearing Conservation ‘‘Hearing Conservation
Manual,’’ Fourth Edition, 114 (2002).
65 Id.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
hearing protectors (e.g., the ‘‘fit-check’’
and the Predicted Personal Attenuation
Rating) and recommending that FRA
also encourage the use of those
methods.
Other commenters, such as NHCA
and Aearo Company, acknowledged that
the Method B ‘‘subject-fit’’ attenuation
data provides a better estimate of the
average real world attenuation but
expressed concern about using Method
B. Both noted that there is ‘‘still wide
debate about Method B and questions
about whether it will be adopted or
widely used.’’ NHCA, along with some
other commenters, recommended that
railroads have the option to follow the
NIOSH recommendations for derating
HPs for the purpose of estimating the
average workplace protection attainable
by groups of HP users. The Aearo
Company suggested a more complex
scheme, whereby the use and type of
attenuation varies based on the
employee’s level of exposure.
FRA and the Working Group
considered this issue and decided to
allow railroads to use Method B as a
method of evaluating hearing protector
attenuation. It provides railroads with
an additional option, thereby giving
railroads more flexibility to choose the
method which is most appropriate for
them.
The other issue related to HP
attenuation was the overall revision of
Appendix B. Aearo Company had
submitted comments, asserting that it
was ‘‘regrettable’’ that FRA chose to
adopt OSHA’s Appendix B without
change. Aearo Company explained that
Appendix B is confusing and
misleading and recommended that FRA
rewrite and clarify it in the final rule.
The RSAC Working Group discussed
Aearo Company’s comment at the postNPRM meeting and decided that it was
most appropriate to leave Appendix B
as proposed, with the exception that,
FRA would add Method B as an option
for estimating the adequacy of HP
attenuation. The Working Group also
noted that Aearo Company had not
provided FRA with any viable
alternatives to use in place of Appendix
B.
As FRA attempted to incorporate
Method B into Appendix B, FRA
encountered difficulty. FRA found that
the proposed appendix was, in fact,
confusing. Given the confusion and
complications, FRA is unable to simply
add Method B, and so FRA is revising
Appendix B. While the decision to add
Method B to Appendix B was part of the
RSAC Working Group consensus, the
revision of Appendix B was not. FRA
has modified Appendix B as explained
below.
PO 00000
Frm 00041
Fmt 4701
Sfmt 4700
63105
In the interest of simplicity, FRA
provides for three methods of estimating
real world HP protection levels. Using
the first method, one subtracts 7 dB
from the published NRR and then
derates based on a percentage of the
remainder. This is similar to NIOSH
recommendations based on type. The
justification for derating by device type
has to do with the potential effect HP fit
has on the attenuation level, with muffs
being the least prone to fitting poorly
and non-formable ear plugs being the
most prone to fitting poorly. Using the
second method, one would derate based
on ANSI S12.6–1997 (Reaffirmed 2002)
Method B. And finally, using the third
method, one uses objective
measurement. One conducts testing in
user environments that measure actual
levels inside the users HPs. FRA wants
to emphasize that it recognizes that all
of the methods mentioned, with the
possible exception of the objective
measurements, are estimates and may
not precisely reflect the true level of
protection. FRA acknowledges that the
level of protection is as much related to
the quality of training, practice and
motivation of the users as it is to the
NRR of the devices used.
Finally, with respect to HP
attenuation, NHCA submitted further
comments, specifically that FRA should
include cautions about HP attenuation
in the rule text. The cautions are based
on conclusions of the NHCA Task Force
on Hearing Protector Effectiveness. The
Working Group, along with FRA, did
not think it was necessary to include
this information in the rule text but did
think it was useful to include it here in
the preamble. Accordingly, FRA
encourages railroads to be cognizant of
the following when evaluating HP
attenuation:
When comparing hearing protectors,
differences between hearing protector ratings
of less than 3 dB are not important.
The labeled values of noise reduction are
based on laboratory tests. It is not possible to
use these data to reliably predict levels of
protection achieved by a given individual in
a particular environment. To ensure
protection, those wearing hearing protectors
for occupational exposures must be enrolled
in a hearing conservation program.
The remaining provisions in § 227.117
are identical to FRA’s proposed rule and
to OSHA’s standard at 29 CFR
1910.95(j). Section 227.117(b) provides
that hearing protectors shall attenuate
employee exposure to an 8-hour TWA of
90 decibels or lower, as required by
§ 227.115.
Section 227.117(c) provides that
hearing protectors for employees who
have experienced a STS must attenuate
exposure to an 8-hour time-weighted
E:\FR\FM\27OCR2.SGM
27OCR2
63106
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
average of 85 decibels or lower. During
pre-NPRM RSAC Working Group
discussions, a railroad representative
raised some practical concerns about
this requirement. Per § 227.115(d), an
employee selects his hearing protection.
The railroad representative is concerned
that an employee might select hearing
protection that is not protective enough,
e.g., an employee might want to use HP
with lower attenuation because he or
she finds it more comfortable. FRA
notes that a railroad should offer its
employees a variety of hearing
protectors with several different types of
attenuation, all of which provide
adequate protection.
Section 227.117(d) provides that the
railroads should re-evaluate the
adequacy of hearing protector
attenuation whenever noise exposures
increase to the extent that hearing
protectors may no longer provide
adequate attenuation. FRA believes it is
necessary for railroads to conduct noise
monitoring in order to know whether
noise exposures have changed.
Section 227.119 Training Program
This section governs a railroad’s
training program. FRA’s training
requirements are based heavily on
OSHA’s training requirements found at
29 CFR 1910.95(k), however there are
some differences, which are noted
below. Section 227.119(a) sets forth the
basic requirement that railroads must
institute an occupational noise and
hearing conservation training program
for all employees included in the
hearing conservation program.
LIRR submitted comments about the
training requirement generally. They
noted that they already have a four-day
process to re-certify/re-qualify crews (on
rules, air brakes, and parts 238 and 239).
To add hearing training would extend
the process to five days, which LIRR
asserts would be at a significant cost
and with added administrative burdens.
As FRA has noted earlier in preamble,
this rule evolved out of the RSAC
process, of which several railroad
representatives were members. Those
members felt that this rule would not be
overly burdensome on railroads,
especially considering that most
railroads already have HCPs in place.
Moreover, the RSAC Working Group
and FRA, as well as the majority of
other commenters, feel that hearing
conservation is an important enough
issue to warrant this rulemaking and its
associated training. In fact, one
commenter, a consultant who has
consulted on over 200 hearing loss
claims, wrote that, based on his
observations, he believes that one of the
two main reasons for cab employees’
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
hearing loss is a lack of adequate
training. He asserts that railroad HCPs
have ‘‘not been comprehensive or
thorough enough with respect to
educating on both the need for and how
to properly use appropriate hearing
protection devices.’’
Sections 227.119(a)(1) and (2) have
evolved through the rulemaking process
and therefore a discussion is warranted.
In the NPRM, FRA proposed that
railroads shall offer training annually
and shall require each employee to
complete training triennially. This
differed from OSHA’s requirement,
which requires employees to complete a
hearing training program at least once a
year.
FRA received numerous comments on
this matter. On one end of the spectrum
was the AAR, which suggested that the
training requirements should be based
on a calendar year, not 365 days from
the last training. They explained that
this would provide flexibility in offering
and completing the training but would
not substantially change the intervals
for any given employee. So, for
example, if a railroad offered training to
an employee in June 2006, the railroad
would be required to offer the next
training session any time in 2007 up
until December 2007.
On other end of the spectrum were
ASHA, AIHA, AAA, NHCA, CAOHC,
NIOSH, Aearo Company, and Michael
Fairchild and Associates, all who
advocated for FRA to require annual,
not triennial, training. They all noted
that training is very important,
explaining that motivation and
education of employees is a key element
to hearing conservation success and is
one of the most effective and critical
components of a HCP. Michael Fairchild
and Associates doubted that employees
would retain information if not
reinforced annually. Similarly, NIOSH
asserted that training would be more
effective if presented annually, based on
the acquisition, retention, and
application of new knowledge and
skills. The commenters also noted that
the success or failure of HCPs has been
shown to depend on the ‘‘buy-in’’ of
employees. They explained that training
not only educates employees but it
serves to reveal problems that
employees face in complying with
components of a HCP. The commenters
also pointed out that an annual
requirement would be consistent with
OSHA’s general industry standard as
well as with other federal agencies such
as MSHA and DOD. Aearo Company,
acknowledging FRA’s desire to
minimize intrusion into the mobile
railroad workforce, suggested that if
FRA had to reduce training frequency,
PO 00000
Frm 00042
Fmt 4701
Sfmt 4700
FRA should compromise at requiring
training at least every 2 years.
The RSAC Working Group discussed
this matter at length. The AAR, an
active member of the RSAC Working
Group present during the proposed rule
discussions, raised a new issue in their
comments to the proposed rule. The
AAR asserted that railroads would have
great difficulty complying with a 12
month period. Faced with factors such
as a highly mobile workforce and a lack
of clinics in certain rural communities,
railroads would be unable to offer
training once every 12 months. Other
RSAC Working Group members,
however, were concerned that a
calendar year requirement would create
the potential for very large gaps between
training. In a worst case scenario, an
employee offered training in January
2006 might have to wait until December
2007 to be offered training again, a
period of almost 2 years. Or, an
employee offered training in December
2006 could next be offered training in
January 2007, a period of only two
months.
In the spirit of compromise, the RSAC
Working Group decided on the
provision that is now in the final rule.
Each railroad shall offer training to each
employee at least once each calendar
year. As to any employee, the interval
between the date offered for a test in a
calendar year and the date offered in the
subsequent calendar year shall be no
more than 450 days and no less than
280 days. See § 227.119(a)(1). The
railroad shall require each employee to
complete the training at least once every
1095 days. See § 227.119(a)(2). These
provisions are identical to those in
§ 227.109(f)(2) on audiometric testing.
With respect to the 450-day provision,
FRA is trying to give railroads sufficient
time to train the large number of
railroad employees spread through the
country while also trying to ensure that
the training sessions are appropriately
spaced. This section requires that every
employee be offered training every
calendar year but to prevent training in
two calendar years from being too far
apart, is providing that the training
interval may not exceed 450 days.
In order to prevent railroads from
offering training too close together, FRA
has established a minimum interval of
280 days (or 9 months). This provision
prevents railroads from offering training
to an employee back-to-back, e.g., offer
training in December 2006 and again in
January 2007. FRA chose 280 days,
because it allows for equal increments
of time in relation to the 450 day
requirement. This 280 day provision is
not a product of the RSAC Working
Group consensus. FRA added this
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
provision after the RSAC Working
Group meeting.
Section 227.119(b) is new to FRA’s
rule; no comparable provision exists in
OSHA’s standard. Section 227.119(b)
identifies the times when a railroad
should initiate training for employees.
For new employees, a railroad shall
provide training within six months of
the employee’s first tour of duty in a
position identified within the scope of
this part. For existing employees, a
railroad shall provide training within
two years of the effective date of this
rule, except for railroads with 400,000
or less employees hours, who shall
provide training in three years.66 Note
that FRA has changed some of the
formatting in this section. The substance
of the provision remains the same.
FRA received several comments on
this paragraph. One comment was to
change the word ‘‘after’’ to ‘‘of’’ before
the words ‘‘employee’s first tour of
duty.’’ FRA took that suggestion and
changed the rule accordingly. The
revised provision now permits an
employer to provide the training before,
in addition to after, the employee’s first
tour of duty.
FRA sought, and received, several
comments on the start date. FRA asked
whether railroads should initiate
training no later than six months after
the employee’s first occupational
exposure or whether railroads should
initiate training prior to the expiration
of the six months (i.e., when the
occupational exposure occurs or before
the occupational exposure first occurs).
ASHA, AIHA, NHCA, NIOSH, Aearo
Company, and Theresa Schulz all
responded that it is best to train
employees and to fit hearing protection
before employees enter noise-hazardous
areas. AIHA wrote that the 6-month and
2-year windows were ‘‘unnecessary and
counterproductive.’’ The commenters
explained that there are negative
consequences of allowing employees to
work in noise hazardous environments
for up to the proposed time periods in
that it provides a substantial time frame
for employees to develop bad habits and
to experience incipient hearing loss.
Theresa Schulz wrote that, at the very
minimum, railroads should have to train
new employees within 6 months. The
commenters also pointed out the
importance of training. Aearo Company
explained that HCP training should be
viewed and treated as equally as
important as the other pieces of safety
information that a new employee
receives.
66 For a discussion on small entities, see the
section-by-section analysis for § 227.103(a).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
The RSAC Working Group discussed
this issue and recommended to FRA to
leave this provision as proposed. The
RSAC Working Group felt that it was
not necessary to require early training,
since the important issue is employee
protection and employees are otherwise
protected during this interim, initial
period through the operation of other
provisions of the rule. Other provisions
of the rule ensure that the employee is
protected. Specifically, if a new
employee has not yet received a
baseline audiogram and is exposed to
sound exceeding an 8-hour TWA of 90
dB(A), the employee is required to use
HP. See § 227.115(c)(2)(i). Plus, the
railroad is supposed to ensure ‘‘proper
initial fitting and supervise the correct
use of hearing protectors.’’ See
§ 227.115(f). Thus, a new employee, if
exposed to hazardous noise, will receive
HP and basic instructions on its use.
Moreover, railroad members of the
RSAC Working Group felt that this issue
was moot given standard practice. They
explained railroads typically provide
new employees with initial training
covering all topics when they start their
jobs, and therefore new employees are
generally trained before they are
exposed to noise. Some employees
might even receive their noise training
as part of their pre-employment
training.
Section 227.119(c) lists the items that
a railroad should address in its hearing
conversation training program and
include in its training materials. This is
a list of the minimum items that a
railroad should address; railroads are
free to include additional items if they
so wish. The first five items listed in
§§ 227.119(c)(1) through (5) are the same
items that OSHA requires in its
standard. See 29 CFR 1910.95(k)(3).
Those items are: The effects of noise on
hearing; the purpose of hearing
protectors; the advantages,
disadvantages, and attenuation of
various types of hearing protectors;
instructions on selection, fitting, use,
and case of hearing protectors; and the
purpose of audiometric testing and an
explanation of test procedures.
The remaining six items found in
§§ 227.119(c)(6) through (11) are
additional items which FRA has added
to its standard. and which do not exist
in OSHA’s standard.
Given that FRA has added these
additional training requirements, it is
not sufficient for railroads to use only a
‘‘canned’’ OSHA training program
(although a ‘‘canned’’ OSHA training
program does suffice as training for the
OSHA-related elements in the FRA
training program). A ‘‘canned’’ OSHA
training program does not contemplate
PO 00000
Frm 00043
Fmt 4701
Sfmt 4700
63107
the unique needs of the railroad
operating environment—e.g., the mobile
nature of his or her work, the variety of
noise sources to which he or she is
exposed—while FRA’s training program
does. These items were added to
address the unique aspects of the
railroad operating environment—e.g.,
the mobile nature of the employees’
work, the variety of noise sources to
which they are exposed, etc. These
items are discussed in the following
paragraphs.
Section 227.119(c)(6) requires
railroads to provide an explanation of
noise operational controls, where used.
This is most relevant for short lines,
because they are most likely to use noise
operational controls.
Section 227.119(c)(7) requires
railroads to provide employees with
general information concerning the
expected range of workplace noise
exposure levels associated with major
categories of railroad equipment and
operations (e.g., switching and road
assignments, hump yards proximate to
retarders) and appropriate reference to
requirements of the railroad concerning
the use of hearing protectors. As
originally conceived, this provision
required railroads to provide employees
with workplace noise exposure levels,
including examples of where hearing
protectors are, or are not, necessary; the
types of equipment that emit excessive
noise; and the types of operations that
produce excessive noise. During
meetings at the proposed rule stage,
some Working Group members
expressed concern that railroads would
have to provide detailed information
specific to each employee. That would
have been administratively difficult for
railroads.
After discussing the issue, the RSAC
Working Group recommended that the
requirement be expressed in more
general terms. FRA accepted that
recommendation. The general language
addresses the railroad’s administrative
concerns and also addresses FRA’s
intention that railroads provide a
general discussion of the ranges of noise
exposure levels that an employee might
encounter. FRA does not intend that a
railroad provide an individualized
report to each employee.
Furthermore, FRA notes that railroads
may provide details of requirements for
the use of hearing protectors during
safety or operating rules training, if the
railroad so chooses, as long as the
railroad retains the appropriate records
required by this part. This should
address railroad representatives’
concerns about the timing of this
training. Some railroad representatives
asserted that this material was already
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63108
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
covered at the time of the audiometric
test. Others asserted that a portion of
this information was already covered in
the railroad safety rules training.
Accordingly, FRA did not specify the
delivery time for these training
requirements. A railroad may choose to
present this information at the safety
rules training, operating rules training,
during audiometric testing, and/or at
any other time. A railroad can even
present this information to an employee
at different times, as long as an
employee can reasonably understand
the information and make sense of it.
Section 227.119(c)(8) requires
railroads to explain the purposes of
noise monitoring and a general
description of noise monitoring
procedures. The intention of this
provision is that railroads will provide
employees with an understanding of
how monitoring is conducted and how
monitoring helps to identify potentially
high exposures of excessive doses.
Railroads do not have to provide
employees with a complex, technical
discussion. Rather, railroads should
provide employees with enough
information so that they know what will
occur and what equipment will be used
during monitoring.
Section 227.119(c)(9) requires
railroads to provide information
concerning the availability of a copy of
this rule, the requirements of this rule
as they affect the responsibilities of
employees, and employees’ rights to
access records required under this part.
Because FRA mandates that employees
participate in the audiometric testing
program specified in this rule, it is
important that the railroads, at a
minimum, explain this rule’s
requirements as they affect their
employees. This provision is not too
different from OSHA’s requirement;
OSHA’s rule contains a provision
whereby the employer shall make
available copies of this standard and
shall also post a copy in the workplace.
See 29 CFR 1910.95(l)(1). FRA had, at
one point, considered a more general
provision that would have broadly
required railroads to provide
information on the requirements of this
subpart. However, FRA decided that
this more narrow requirement struck a
better balance between the need to
provide employees relevant information
and the scope of the information that
railroads will have to provide.
Section 227.119(c)(10) requires
railroads to train employees on how to
determine what can trigger an excessive
noise report, pursuant to § 229.121(b).
Section 227.119(c)(11) requires railroads
to train employees on how to file an
excessive noise report, pursuant to
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
§ 229.121(b). This information will be
helpful to employees, because it will
enable them to identify when noise
exposures are excessive in the
locomotive cab. Also, it will educate
employees, so that they know how to
respond to excessive noise in the
locomotive cab. These two training
elements were not found in the NPRM
consensus document that the RSAC
forwarded to FRA. Rather, these two
elements were added after OSHA’s
review of the NPRM during the prepublication clearance process.
FRA sought comment on these two
items which FRA added as a result of
OSHA’s review of the proposed rule.
Most commenters, including ASHA,
AIHA, and Theresa Schulz, supported
FRA’s decision to include these
additional items. One commenter wrote
that the additional requirements were
‘‘excellent.’’ The commenters went on to
explain that these requirements will
allow an employee to recognize
excessive noise and use HP, which will
provide an early intervention to prevent
hearing loss. The AAR requested that
FRA clarify what would be adequate to
satisfy § 227.119(c)(10) (i.e., train
employees on how to determine what
can trigger an excessive noise report).
During the post-NPRM RSAC Working
Group meeting, the AAR withdrew this
comment, noting that definition in the
rule and preamble language in the
NPRM (much of which is reproduced in
this final rule) sufficiently defines
excessive noise report. The AAR also
noted that training should include the
definition of excessive noise. FRA
agrees and encourages railroads to share
not only the definition of ‘‘excessive
noise’’ with employees but also the
information contained in the preamble
discussion on ‘‘excessive noise.’’
Another issue which arose in the
context of training is delivery method.
The NPRM did not specify the delivery
method for training. FRA noted that
traditional classroom training is the
most beneficial, followed by interactive
(e.g., computer) training, and then video
training. It is FRA’s understanding that
most class I railroad employees are
generally trained by viewing a video
presentation or by operating an
interactive computer program.
Railroad representatives felt strongly
that FRA should not mandate classroom
training. They felt that any requirement
that departs from a standardized OSHA
training program might result in
significantly increased costs with
questionable additional benefit. FRA
sought comment as to whether railroads
should conduct training through the use
of traditional classroom methods, video
presentations, or computer training.
PO 00000
Frm 00044
Fmt 4701
Sfmt 4700
The AAR replied, objecting to FRA’s
conclusion ‘‘on the desirability of
classroom training over training by
video or computer.’’ The AAR stated
that there was no empirical data
presented to the Working Group that
would support the proposition that
traditional teaching methods are more
effective than video or computer
training. The AAR pointed out that
there are benefits to video and computer
training, such as avoiding distractions
inherent to teaching groups and
potentially maximizing the attention to
the training by allowing the employee to
choose the time of the training. The
AAR explained that computer and video
training are well accepted by
professional educators and felt that they
should be maintained as options.
Several other commenters, including
ASHA, AAA, and AIHA, were in favor
of interactive training. They stated that
interactive training is usually more
effective, if not the ‘‘most effective way
to communicate the message.’’ They
explained that live training permits
employees to interact with the
instructor and to ask questions. Several
mentioned that it provides a ‘‘teachable
moment,’’ where an employee is open to
receiving information. ASHA and AIHA
acknowledged, however, that face-toface training can be ‘‘burdensome and
costly’’ and so ASHA suggested an
alternative whereby employers would
provide resources for answering
employee questions as they arose,
instead of conducting face-to-face
training.
In this final rule, FRA does not
specify a delivery method for training.
A railroad can provide the training
information through any medium it
chooses. Given the nature of the mobile
railroad workforce and the cost of this
type of training, FRA recognizes that
traditional classroom/live training could
be costly and administratively
burdensome. However, FRA reiterates
its belief that traditional classroom
training (i.e., face-to-face or live) is an
excellent and often highly effective
method of training. Traditional
classroom training is beneficial, because
it allows employees to ask questions
and receive immediate feedback.
Similarly, training with interactive
components (e.g., the ability to test
employees’ knowledge of the subject
matter as they learn and the ability of
employees to obtain further information
during the session) creates a more
effective learning environment than
training without those components.
FRA recognizes that there are many
creative training options, especially
given today’s technological capabilities.
For example, a railroad could use on-
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
line interactive training. Or a railroad
could supplement a computer or video
presentation with content experts that
are available through e-mail or phone. It
is FRA’s belief that these methods,
while not necessarily exactly equivalent
to classroom training, can be effective in
conveying necessary information to
employees.
Section 227.121 Recordkeeping
This section contains the
recordkeeping requirements for this
regulation. Section 227.121(a) sets out
some general recordkeeping provisions,
and §§ 227.121(b) through (f) specify the
records which railroads must maintain
and retain. FRA is granted authority to
inspect records by 49 U.S.C. 20107.
Pursuant to that authority, FRA must act
within certain parameters when
inspecting records. FRA must enter
upon property and inspect records at a
reasonable time and in a reasonable
manner and must seek records that are
relevant to FRA’s investigation.
Section 227.121(a)(1) addresses the
availability of records. Section
227.121(a)(1) provides that a railroad
shall make all records available for
inspection and copying/photocopying to
representatives of FRA upon request;
make an employee’s records available
for inspection and copying/
photocopying to that employee, former
employee or such person’s
representative upon written
authorization by such employee; make
exposure measurement records for a
given run or yard available for
inspection and copying/photocopying to
all employees who were present in the
locomotive cab during the given run
and/or who work in the same yard; and
make exposure measurements for
specific locations available to regional
or national labor representatives, upon
request.
This section has been revised since
the proposed rule. FRA has formatted it
slightly differently and has better
clarified who can have access to which
records. Along those lines, FRA revised
the provisions found in
§ 227.121(a)(1)(i), (ii), and (iv) and
added § 227.121(a)(1)(iii). The proposed
rule seemed to permit an individual
employee to obtain any records
(including audiometric testing/medical
records) required under this part of
another individual employee. FRA did
not think that was appropriate since it
raises privacy concerns. What FRA
intended in the NPRM and what is more
explicit in this final rule is that
individual employee would be able to
receive the records of a monitored run
if the employee was in the cab during
the monitoring and/or if the employee
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
works in the same yard where the
monitoring occurred. However, FRA
never intended for an individual
employee to be able to obtain the
individual testing records of another
employee. FRA notes that it realized the
need for this change after the RSAC
Working Group meeting and so this
change was not the result of the RSAC
consensus recommendation.
Section 227.121(a)(2) permits records
to be kept in electronic form. FRA has
added language to this section since the
proposed rule. FRA added this language
since the post-NPRM RSAC Working
Group meeting, and so it is not a
product of the RSAC consensus
recommendation. With this additional
language, FRA has clarified the
requirements for the use of electronic
records. These requirements are almost
identical to the electronic recordkeeping
requirements found in FRA’s existing
track safety standards, § 213.241(e),
though FRA has tailored them slightly
to fit the nature of noise records. Section
227.121(a)(2) allows each railroad to
design its own electronic system as long
as the system meets the specified
criteria in §§ 227.121(a)(2)(i) through
(v), which is intended to safeguard the
integrity and authenticity of each
record. Section 227.121(a)(3) discusses
the transfer of records from a railroad
that ceases to do business.
Section 227.121(b) requires railroads
to maintain and retain employee noise
exposure measurement records. In the
NPRM, FRA proposed to require
railroads to retain employee exposure
measurement records for three years.
Several commenters voiced strong
opposition to this proposal. NHCA
wrote that it was ‘‘unrealistic,’’ and
Theresa Schulz wrote that it was a
‘‘questionable practice.’’ Many
commenters noted that there was a
marked inconsistency between this
requirement (i.e., retaining exposure
records for 2 years) and § 227.121(c)(2)
(i.e., retaining audiometric test records
for the duration of the covered
employee’s employment).
Wilson, Ihrig, & Associates noted that
the three-year requirement could be
detrimental to an employee’s ability to
file a Federal Employers Liability Act
(FELA) claim. According to Wilson et
al., an employee’s FELA claim is
supported or refuted using previously
obtained-noise exposure information. If
employers aren’t required to keep those
records, they won’t keep them, and then
employees will have great difficulty
making a hearing loss claim because
they will not have information they
need. Several other commenters,
including ASHA, Theresa Schulz,
AIHA, and NHCA, recommended that
PO 00000
Frm 00045
Fmt 4701
Sfmt 4700
63109
FRA require employers to retain both
sets of records for the duration of the
employee’s employment plus 30 years.
They explained that this would be
consistent with other health record
maintenance standards.
FRA notes that the three-yearretention period in the proposed
§ 227.121(b)(2) was an oversight. FRA
and the Working Group had sought to
track OSHA’s requirement and in doing
so, FRA failed to take into account the
connection between OSHA’s general
industry standard in 29 CFR
1910.95(m)(3)(i) and OSHA’s access to
employee exposure and medical records
standards in 29 CFR 1910.1020(d)(1)(ii).
While OSHA’s general industry
standard requires employers to retain
noise exposure measurements for 2
years, OSHA’s access to records
standards requires employers to retain
employee exposure records for at least
30 years. FRA should have tracked the
retention requirements in 29 CFR
1910.1020, because FRA employee
exposure measurement records more
closely resemble employee exposure
records than noise exposure
measurement records. Accordingly, FRA
is correcting its original mistake.
Section 227.121(b)(2) requires railroads
to maintain employee exposure
measurement records for the duration of
the covered employee’s employment
plus thirty years. FRA notes that the
Working Group members indicated that
most major railroads are already
retaining these documents for this time
period, so this requirement will be
consistent with current practice.
Section 227.121(c) requires railroads
to maintain employee audiometric test
records. Consistent with the retention
period for § 227.121(b), FRA requires
railroads to maintain these records for
the duration of the covered employee’s
employment plus thirty years. In
§ 227.121(c)(1), FRA specifies the items
which railroads must include in the
audiometric test records. FRA included
in the NPRM all of OSHA’s items (see
29 CFR 1910.95(m)(2)(ii)) except for
one, ‘‘the employee’s most recent noise
exposure assessment.’’ NHCA, AIHA,
Theresa Schulz, and ASHA indicated
that they think FRA should have the
same recordkeeping requirements as
OSHA, including the provision which
FRA eliminated in the NPRM. In
addition, as NHCA explained, ‘‘this
important piece of information provides
assistance to the professional reviewer
who must make follow-up decisions
based on the audiometric record.’’
FRA agrees that this information is
important, however, FRA believes that
the rule already provides for the
retention of this item. The railroad will
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63110
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
already have a copy of the employee’s
most recent noise exposure assessment
pursuant to § 227.121(b). As such, there
is no need to duplicate the requirement
in § 227.121(c). In addition, as FRA
pointed out in the NPRM, it is
impracticable to expect railroads to
store the employee’s most recent nose
exposure assessment with the
audiometric test records. Realistically
speaking, the individual performing the
employee’s audiometric test would not
have access to the noise measurement
data and thus would not be able to enter
it on the audiogram.
With respect to § 227.121(c), several
commenters, including AIHA, ASHA,
and Theresa Schulz, recommended that
FRA require railroads to include
additional information in the
audiometric test records. Specifically,
they suggested that railroads record: (1)
The model and serial number of the
audiometer used for testing; (2) the
measurements of the background sound
pressure levels in the audiometric test
room; and (3) the name of the individual
supervising the hearing conservation
program. FRA, in conjunction with the
Working Group, decided to require
railroads to include the first item but
not the second and third item.
With respect to the first item, there
was consensus among the members of
the Working Group that there was value
in including the model and serial
number of the audiometer. That
information can help an employer to
easily and readily identify a problem
audiometer. This is especially the case
where an employer uses several
audiometers and has intermittent
problem results. The Working Group
members also noted that, practically
speaking, the burden of including this
information on the audiometric test
record is minimal. Most audiometers
already automatically include this
information on the audiogram.
Accordingly, FRA, with the Working
Group consensus, added a provision
whereby railroads must include the
model and serial number of the
audiometer used for testing on the
audiometric test record. See
§ 227.121(c)(1)(vi).
With respect to the second item, the
Working Group noted that this issue
was already addressed elsewhere in the
rule. Section 227.121(c)(1)(v) requires
railroads to maintain in the audiometric
test records ‘‘accurate records of the
measurements of the background sound
pressure levels in audiometric test
rooms.’’ As such, FRA thought it was
unnecessary to include this additional
item in the audiometric test record.
With respect to the third item, the
Working Group felt that it was
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
unnecessary to include the name of the
individual supervising the HCP. It is
important to include the name of the
individual conducting the test;
therefore, the rule, in § 227.121(c)(1)(iii),
requires railroads to include that
information. Moreover, it is important to
ensure that the individual conducting
the test is qualified, and so the rule
addresses that issue in § 227.109(c).
However, neither the Working Group
nor FRA saw the need to require
railroads to record the name of the
individual supervising the HCP, and so
FRA does not require railroads to
include this additional item in the
audiometric test record.
FRA is ‘‘grandfathering’’ certain preexisting baseline audiograms depending
on the conditions under which the
audiometric test for that baseline
audiogram was conducted. For a
complete discussion of the
grandfathering provisions, see the
section-by-section analysis for
§ 227.109(e)(2). In short, FRA expects
railroads to make a good faith effort in
obtaining the audiometric test records
for grandfathered baseline audiograms.
At the same time, FRA understands that,
in certain cases it might be very
difficult, if not impossible, since the
baseline audiograms were, in many
cases, obtained years ago. Accordingly,
FRA recognizes that railroads will
sometimes be unable to provide some of
the required information from the
audiometric testing records for
grandfathered baseline audiograms.
Section 227.121(d) requires railroads
to maintain a record of all positions
and/or persons designated by the
railroad to be placed in a HCP. The rule
requires railroads to retain these records
for the duration of the designation. LIRR
wrote that, because of the their bidding
and bumping process, it would be
administratively burdensome and costly
for them to comply with this
requirement. The preamble to the NPRM
(see 69 FR 35169) had been missing the
word ‘‘or,’’ which may have been what
generated this comment. Given the
‘‘and/or’’ nature of this provision, a
railroad is compliant with this provision
if they simply list the positions that are
required to be placed in a HCP
(although they can also, or in addition,
list the persons that are required to be
placed in a HCP). Neither FRA nor the
Working Group believe that this is
overly burdensome, and so FRA is
retaining the proposed requirement in
the final rule.
Section 227.121(e) requires railroads
to maintain copies of the training
materials required by § 227.119 and a
record of all employees trained. The
final rule requires railroads to retain
PO 00000
Frm 00046
Fmt 4701
Sfmt 4700
these copies and records for three years.
This is a requirement that is new to
FRA’s rule; it is not in OSHA’s general
industry standard for noise. ASHA,
AIHA, and Theresa Schulz suggested
that it might be too burdensome for
railroads to have to keep copies of all
the training materials, and so they
suggested that FRA instead require
railroads to document the date, content,
attendees, and faculty for each training
program. The Working Group
considered this recommendation but
decided not to adopt it. FRA agrees and
accordingly, FRA is leaving this
provision as proposed in the NPRM.
Section 227.121(f) requires railroads
to maintain a list of employees who
have experienced a standard threshold
shift (STS) within the prior calendar
year. A STS should be noted on the list
for the year in which it occurred; the
STS need not be re-entered on the list
for subsequent years. The final rule
requires railroads to retain this list for
five years. Although OSHA does not
require employers to maintain this
information, FRA requires this
information, because it can help assess
the effectiveness of a railroad’s HCP
over time. This information is not
reportable per se, under part 225.
However, it triggers an evaluation as to
work-relatedness 67 and if it is workrelated, then the railroad would have to
record/report it as required by part 225.
With respect to § 227.121(f), FRA sought
comment as to whether five years was
an appropriate amount of time for
railroads to retain a list of STSs. FRA
did not receive any comments and
accordingly is leaving it as proposed.
Appendices to Part 227
In the proposed rule, FRA had
adopted appendices A–F from OSHA’s
noise standard. For the most part, FRA’s
proposed appendices were virtually
identical to the appendices for OSHA’s
general industry standard. FRA has
since made a number of substantive
changes to the appendices. Those
changes are discussed below and/or in
the relevant section-by-section analysis
above. Also please note that FRA has renumbered much of the appendices that
were carried over from the proposed
rule so that the numbering is consistent
across appendices.
With respect to appendices in general,
one commenter suggested that FRA add
a non-mandatory appendix that contains
67 For purposes of the § 227.121(f) list, a railroad
must maintain a list of all STSs regardless of workrelatedness. For purposes of part 225, a railroad
must report STSs that meet the reporting criteria
(i.e., among other things, only those that are workrelated). See § 225.5 for the definition of
‘‘occupational hearing loss’’ and § 225.19(d).
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
two tables, Tables 1–1 and 1–2, from the
1998 NIOSH Revised Criteria
Document.68 The NIOSH tables are
analogous to Tables A–1 and A–2 in
mandatory Appendix A in FRA’s rule.
The difference is that the NIOSH tables
are based on an 85 dB(A) exposure limit
and a 3 dB exchange rate, and the FRA
tables are based on a 90 dB(A) exposure
limit and a 5 dB exchange rate. NIOSH
believes that the additional nonmandatory appendix would supply
additional materials to help users make
informed decisions about preventing
hearing loss among railroad employees.
FRA and the Working Group decided
not to add these tables based on the
view that including several conflicting
tables is more likely to create confusion
than provide assistance.
Appendix A to Part 227
Appendix A is a mandatory appendix
that provides tables with which an
employer can compute an employee’s
noise dose. FRA has made some changes
to Appendix A, most of which are
discussed above in the section-bysection analysis for § 227.105. FRA also
made a purely cosmetic change, which
is discussed here. At the suggestion of
Aearo Company and with the agreement
of the RSAC Working Group, FRA
italicized all levels above 115 dB(A) in
Table A–1. FRA (and OSHA, from
whom FRA adopted this appendix)
included these levels, not because they
are permitted levels, but because they
can be necessary for the computation of
noise dose. The commenter pointed out
that OSHA had written in the preamble
to their 1981 Hearing Conservation
Amendment 69 that they were italicizing
these levels, however, there were no
italics in the regulatory text of OSHA’s
final rule. By italicizing these levels and
including a footnote to Table A–1, FRA
makes it clear that these levels are
different from the others. It allows FRA
to avoid giving the impression that these
levels are permitted.
rmajette on PROD1PC67 with RULES2
Appendix B to Part 227
Appendix B is a mandatory appendix.
FRA identifies the methods which
railroads should use for estimating the
adequacy of HP attenuation. FRA has
revised this appendix since the
proposed rule. For a discussion of the
changes, see the section-by-section
analysis for § 227.117.
Appendix C to Part 227
Appendix C is a mandatory appendix
that contains procedures for revising
baseline audiograms. Appendix C as
68 See
69 46
§ III(D) above for a related analysis.
FR 4078–1 (January 16, 1981).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
proposed in the NPRM was adopted
from OSHA’s general industry noise
standard. Proposed Appendix C
discussed self-recording audiometers
and also included one sentence
addressing a requirement in the event
that pulsed-tone audiometers are used.
Several commenters recommended that
FRA delete all references in the rule to
self-recording audiometers. The
commenters explained that selfrecording audiometers are no longer
produced, supported, or used, and so
there is no point to reference them.
Another commenter explained that it
was unnecessary to discuss the
‘‘possibility’’ of using pulsed-tone
audiometers, since they are routinely
used.
FRA and the RSAC Working Group
agreed to incorporate these technical
changes in the final rule. FRA removed
all references to self-recording
audiometers, including references in the
proposed § 227.111(c) and the proposed
Appendix C. With the self-recording
audiometer discussion removed, there
was almost nothing left in Appendix C.
FRA modified the remaining sentence to
address the commenter’s concern by
removing the phrase ‘‘in the event that
pulsed-tone audiometers are used’’ and
moved the modified sentence to
§ 227.111(b)(1).
FRA further revised the requirement
for pulsed-tone audiometers, as a result
of CAOHC’s comments. CAOHC
recommended that FRA’s specifications
for pulsed stimuli should be 200
milliseconds on and 200 milliseconds
off. They explained this would be
consistent with audiometric
instrumentation. FRA agreed that
requirement should be expanded but
chose to do so in a different manner.
Using the requirement from ANSI S3.6–
2004, FRA wrote that ‘‘Pulsed-tone
audiometers, where used, should be
used with the following on and off
times: F–J and J–K shall each have
values of 225 ± 35 milliseconds.’’
Because FRA had removed proposed
Appendix C, FRA also removed the
language in the proposed § 227.109(d)
that referred to Appendix C. Rather than
renumber the remaining paragraphs of
§ 227.109, FRA has intentionally left
§ 227.109(d) blank in the final rule.
In this final rule, FRA has inserted a
new Appendix C. For a discussion of
new Appendix C , please see the
section-by-section analysis for
§ 227.109(i).
Appendix D to Part 227
Appendix D addresses the
requirements for audiometric test
rooms; it is a mandatory appendix. FRA
has added a row to the Table in
PO 00000
Frm 00047
Fmt 4701
Sfmt 4700
63111
Appendix D. It sets the background
noise levels for hearing tests conducted
with insert earphones. For a discussion
of the changes made in the final rule,
see the section-by-section analysis for
§ 227.111(e).
Appendix E to Part 227
The proposed Appendix E addressed
the acoustic calibration of audiometers.
Most of the information in that
appendix was based on an outdated
ANSI standard, and so FRA removed the
appendix. FRA put the relevant
requirements for calibration in
§ 227.111(f)(2). For a discussion of the
changes in the final rule, see the
section-by-section analysis for
§ 227.111(f)(2).
In this final rule, FRA has placed the
requirements for insert earphones in
Appendix E. Appendix E is a mandatory
appendix that establishes the
requirements that railroads must use if
they choose to conduct hearing tests
with insert earphones. For a discussion
of this appendix, see the section-bysection analysis for § 227.111(c).
Appendix F to Part 227
Appendix F is a non-mandatory
appendix that employers can use to
calculate and apply age correction to
audiograms. For a discussion of the
comments that FRA received related to
Appendix F, see the section-by-section
analysis for § 227.109(j).
Appendix G to Part 227
In the final rule, FRA has placed in
Appendix G the schedule of civil
penalties that FRA will use in
connection with part 227. This is
different than the Appendix G that was
proposed in the NPRM. The proposed
Appendix G was an informational index
that provided employers with basic
information on complying with the
noise monitoring provisions contained
in the rule. It was the same as OSHA’s
Appendix G. In the proposed rule, FRA
sought comment on whether or not FRA
should adopt this appendix. FRA did
not receive any comments on that issue.
FRA has since removed the proposed
Appendix G from this final rule. It
addressed conventional workplaces,
rather than the railroad industry. As
such, it did not accurately characterize
the noise environment in the locomotive
cab. In addition, much of the general
material in that appendix is also
covered in the preamble discussion of
this NPRM, and so it is unnecessary to
repeat in an appendix.
E:\FR\FM\27OCR2.SGM
27OCR2
63112
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Part 229—Railroad Locomotive Safety
Standards
Section 229.4
Information Collection
This section notes the provisions of
this part that have been submitted to the
Office of Management and Budget
(OMB) for compliance with the
Paperwork Reduction Act of 1995. See
44 U.S.C. 3501 et seq.
rmajette on PROD1PC67 with RULES2
Section 229.5
Definitions
The term ‘‘Decibel’’ refers to a unit of
measurement of sound pressure levels,
and the term ‘‘dB(A)’’ refers to the
sound pressure levels in decibels
measured on the A-weighted scale.
These terms are commonly accepted
and widely used by noise professionals.
The term ‘‘Excessive Noise Report,’’
as used in § 229.121(b), refers to a report
filed by a locomotive cab occupant that
indicates that the locomotive is
producing an unusual level of noise
such that the noise significantly
interferes with normal cab
communications or that the noise raises
a concern with respect to hearing
conservation.
When a cab occupant in a locomotive
operating in service experiences an
unusual noise level, he or she may file
a report with the railroad. In that report,
the occupant should indicate those
items which he or she believes are
substantially contributing to the noise.
An ‘‘unusual level of noise’’ refers to a
noise level in the cab that is much
higher or much different than that to
which the occupant is normally
accustomed; it is, for example, a banging
or squealing sound. It is, however, not
just any irritating noise. Not only must
the noise level be excessive and
unusual, but it must also either (1)
significantly interfere with normal cab
communications and/or (2) raise hearing
conservation concerns.
A noise level significantly interferes
with normal cab communications if it
prevents the locomotive cab occupants
from safely and effectively conducting
their job assignments. Noise can degrade
job safety in several ways. Certain
parameters, such as high noise levels,
high-frequency noise; and intermittent,
unexpected, uncontrollable, or
continuous noise can jeopardize job
safety by distracting, disrupting, or
annoying an individual. In addition,
noise can be a safety hazard if it
‘‘masks’’ alarm signals or warning
shouts. Masking is ‘‘an increase in the
threshold of audibility of one sound (the
masked sound) caused by the presence
of another sound (the masking sound or
VerDate Aug<31>2005
16:17 Oct 26, 2006
Jkt 211001
masker).’’ 70 In the railroad operating
environment, the masked sound can be
an alarm or warning sound, speech from
a coworker or over a radio, or a sound
produced by a machine (e.g., air brake
exhaust, engine noise). Masking
becomes a problem when an intentional
or incident sound that is conveying
useful information is rendered inaudible
or when speech that is conveying
critical information is rendered
unintelligible. Where noise masks
necessary speech or other warning
signals, it disrupts speech, interferes
with the communication, and prevents
a cab occupant from safely performing
his or her job. As these employees
operate large pieces of equipment and
transport large quantities of (sometimes
dangerous) materials, there are serious
consequences for errors in operation.
This rule does not identify the precise
decibel level at which communication is
deemed to have been ‘‘significantly
interfered,’’ because it is impossible to
identify any single number due to the
fact each individual has a different
sensitivity to hearing and different
susceptibility to hearing loss. Moreover,
the identification of a single decibel
level would be meaningless to cab
occupants. As crew members do not
have measurement instrumentation with
them on their runs (nor do they know
how to use them), the crew occupants
would be unable to determine the
precise decibel levels during any single
run.
A noise level raises hearing
conservation concerns if, for example, it
causes the occupant to question the
effectiveness of his or her hearing
protection or if the occupant is
experiencing new noise-related medical
conditions such as tinnitus (i.e., a
ringing, buzzing, roaring, or other sound
in the ear). This rule operates under the
assumption that the person identifying
this hearing conservation concern is an
individual who has been trained in
hearing protection (as most employees
likely will be) and understands the basic
principles of hearing protection and
attenuation—that is why this person is
informed enough to determine that there
is a hearing conservation concern.
The term ‘‘Upper 99% Confidence
Limit’’ is a statistical probability
statement. A confidence limit refers to
the lower and upper boundaries of a
statistic confidence interval. A
confidence interval gives an estimated
range of values which is likely to
include an unknown population
parameter. The estimated range is
70 ‘‘Speech Communications and Signal Detection
in Noise,’’ G.S. Robinson & J.G. Casali in The Noise
Manual, 569 (2000).
PO 00000
Frm 00048
Fmt 4701
Sfmt 4700
calculated from a given set of sample
data. For example, if the upper 99%
confidence limit for the noise level of a
population of locomotives is 87 dB(A),
then in a sample of 100 locomotives, at
least 99 will be found to have a noise
level of 87 dB(A) or less.
Section 229.121
Locomotive Cab Noise
(a) Performance Standards for
Locomotives
FRA commends, railroads and
manufacturers for their efforts in making
locomotives quieter. In recent years,
locomotive manufacturers have built
new locomotives with better sound
reduction techniques and with lower
noise exposure levels. Many new
locomotives now have several of the
following features, which reduce the cab
noise exposure level: Horn placement in
the center of the locomotive; insulation
of the cab; insulation of the cab floor;
venting the exhaust from the air brake
system outside of the cab; and
installation of air conditioning in the
cab to allow cab windows to be closed.
In addition to the above features,
manufacturers have developed and
offered ‘‘quiet cabs,’’ which isolate the
cab occupant from noise sources of both
high and low frequencies. One
manufacturer, in particular, has
developed a locomotive cab that is
vibrationally isolated from the
locomotive body, thereby resulting in
substantially less noise in the cab and
arguably less vibration in the cab. The
manufacturer has recently discontinued
offering this feature. Another
manufacturer has developed a
locomotive design that isolates the
diesel engine, which decreases the
transfer of noise and vibration
throughout the locomotive.
Manufacturers claim that they can
achieve normal noise exposure levels of
75 dB(A) in these locomotive cabs. At
the time of the issuance of this rule,
these units are not yet pervasive
throughout the industry.
Section 229.21(a)(1) establishes a
design requirement for all locomotives
that are manufactured by a specified
date. That date is 12 months after this
rule is published in the Federal
Register. The proposed rule had set that
date at January 1, 2005. Given that time
has passed, FRA decided to extend that
date. This section provides that all
locomotives of each design or model
shall average less than or equal to 85
dB(A), with an upper 99% confidence
limit of 87 dB(A). This performance
standard ensures that newly-built
locomotives will not produce excessive
noise levels. For the most part, this
section imposes requirements that
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
reflect current equipment and design,
and, therefore, they should not impose
a substantial burden on railroads or
locomotive manufacturers. FRA has
specifically chosen to use the terms
‘‘design’’ and ‘‘model.’’ While the term
‘‘model’’ tends to be accepted
terminology in the U.S., the term
‘‘design’’ is used more internationally,
and, therefore, the inclusion of both
terms provides a more complete
understanding of this provision.
FRA received two comments on this
requirement. First, an individual BLET
member suggested that FRA require
railroads to check all locomotives in a
fleet, not just a percentage. It is a
common industry practice and an
accepted statistical practice to use a
sampling strategy, and FRA does not see
any reason to veer from that practice. In
this rule, FRA specifies a quality control
process that is consistent with good
practice in modern manufacturing. FRA
proposed a 99% upper confidence limit
for determining that new locomotives
are being produced in accordance with
the following characteristics: Where the
mean noise level equals 85 dB and the
upper limit equals 87 dB, there is a 1%
chance that sample of locomotives will
exceed a mean noise level of 87 dB (1
in 100 samples of appropriate size). This
procedure is desirable, because it allows
a quality control check on the
manufacture of the locomotives with
regard to the rule without imposing
undue expense on the manufacturer.
There would surely be undue expense
on the manufacturer if the manufacturer
had to test all locomotives.
Second, Wilson, Ihrig, & Associates
wrote that the design requirement of 85
dB(A) with an upper 99% confidence
limit of 87 dB(A) should be a minimum
requirement. They assert that
locomotives that have been tested to
lower levels should be required to
maintain those lower levels. They
further explained that locomotives with
isolated cabs are well known to achieve
noise levels well below 85 dB(A), and
they believe those locomotives should
be required to maintain that lower level.
The RSAC Working Group has
recommended, and the FRA has agreed,
to leave this provision as proposed. FRA
and the Working Group is satisfied with
the previous consensus that was
achieved and do not see any reason at
this point to revise this provision.
Section 229.121(a)(1) also includes
requirements for a build provision. A
manufacturer may determine the
average by testing a representative
sample of locomotives or an initial
series of locomotives, provided that
there are suitable manufacturing quality
controls and verification procedures in
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
place to ensure product consistency. To
determine whether the standard in this
regulation is met, the railroad may rely
on certification from the equipment
manufacturer for a production run.
Section 229.121(a)(2) discusses the
issue of alterations on locomotives that
are manufactured in accordance with
paragraph (a)(1). If the average sound
level for a particular locomotive design
or model is less than 82 dB(A), a
railroad shall not make any alterations
that cause the average sound level for
that locomotive design or model to
exceed 82 dB(A). If the average sound
level for a particular locomotive design
or model is 82 dB(A) to 85 dB(A),
inclusive, then a railroad shall not make
any alterations that cause the average
sound level for that locomotive design
or model to increase to 85 dB(A). The
purpose underlying this provision is
FRA’s desire that railroads retain
equipment’s essential quiet cab status
through the life of that locomotive and
especially after the railroad performs
maintenance on the locomotive. Please
note that FRA has re-formatted this
section slightly since the proposed rule
and after the post-NPRM RSAC Working
Group meeting. The changes are
intended to better clarify this provision
and do not change the substance of this
section.
For purposes of the maintenance
conducted pursuant to § 229.121(a),
replacement in kind is not considered to
be an alteration. Replacement in kind
refers to a situation where an individual
removes a part and replaces that part
with the identical part of the same make
and model. That identical part must be
of equivalent or better quality.
In developing this provision, the
RSAC Working Group considered
several other possible provisions. One of
those provisions stated that the railroad
should not alter any portion of the
equipment originally designed to reduce
interior noise unless the alteration
essentially maintained the existing
noise level or decreased the existing
noise level. As that provision was
somewhat vague, the Working Group
sought to better define the term
‘‘alteration.’’ FRA suggested that an
alteration would be permissible if it
only resulted in a modest increase in
noise. A modest increase referred to the
lesser amount as between an increase of
3 dB or 85 dB(A). An alteration could
not increase the noise level by more
than 3 dB and where the noise level was
83 dB(A), an alteration could not
increase the noise level by more than 2
dB. If the noise level was 84 dB(A), an
alteration could not increase the noise
level by more than 1 dB. In all cases, the
maximum permissible noise level
PO 00000
Frm 00049
Fmt 4701
Sfmt 4700
63113
would be 85 dB(A). Certain railroad
representatives of the Working Group
opposed this provision, because they
felt that it limited their ability to
conduct maintenance on equipment. To
address those concerns and to produce
a better defined standard, FRA is using
the provision now found in the rule
text, which was the provision ultimately
recommended by the RSAC.
The AAR was not pleased with this
maintenance provision for newly-built
locomotives and suggested that FRA
instead set the maintenance limit at the
same level as the level for new
equipment level, 85 dB(A). The AAR
believes that 82 dB(A) is ‘‘an artificial
number that is not grounded in hearing
science’’ and that ignores other
potentially important realities. As
example, they explained that if there
was a new technology that permitted
increased safety to occupants or
increased fuel efficiency but resulted in
sound levels about 82 dB(A), railroads
could buy this new technology on
newly-built equipment but could not
modify existing newly-built equipment
to include it. The AAR stated that their
experience has shown that ‘‘reducing
sound levels cannot be permitted to
drive design changes focused on a single
issue (in this case, noise) at the expense
of reliability and other safety issues.’’
The AAR, an active participant in the
RSAC Working Group throughout the
entire process for this rulemaking, was
present during the post-NPRM Working
Group meeting. The AAR reiterated the
point above, stating that they believe 85
dB(A) is a ‘‘safe level’’ from a noise
perspective, and so they believe it
should be the standard for the design
and the maintenance of locomotives.
Other Working Group members
expressed serious reservations about
that change, explaining that this
proposed rule was a compromise
document, of which the 85 dB(A)
provision represented a great deal of
compromise. The Working Group had
initially considered, among other things,
setting the noise level for newly built
locomotives at 75 dB(A), but had
lowered that level as a result of
concerns of Working Group members.
To attempt to change the terms now
would veer from the spirit of the
compromise and from what the RSAC
Working Group had decided was the
most appropriate level. Given that
background and given the fact that there
was no new information upon which to
act, the Working Group decided to leave
this level as proposed.
Section 229.121(a)(3) directs railroads
and manufacturers to conduct static
testing, as specified in Appendix H.
Appendix H to part 229 contains a set
E:\FR\FM\27OCR2.SGM
27OCR2
63114
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
of procedures for conducting in-cab
static test measurements on
locomotives. Through the static test,
railroads and manufacturers can
determine whether newly-built
locomotives meet the requirements of
§ 229.121. The rule states that a railroad
or manufacturer shall follow the
Appendix H static test protocols to
determine compliance with paragraph
(a)(1). The rule also states that a railroad
or manufacturer shall also follow the
Appendix H static test protocols to
determine compliance with paragraph
(a)(2), but only to the extent reasonably
necessary to evaluate the effect of
alterations during maintenance. In sum,
then, a railroad or manufacturer must
conduct static testing pursuant to
paragraph (a)(1) and may conduct static
testing to determine compliance with
paragraph (a)(2) if they find it is needed.
FRA did not receive any comments on
this provision and therefore it remains
as proposed in the NPRM.
(b) Maintenance of Locomotives
Section 229.121(b) governs the noiserelated maintenance requirements for
locomotives. Please note that FRA has
made some minor editorial changes in
this section since the proposed rule and
after the post-NPRM RSAC Working
Group meeting. These changes are
meant to clarify the language in the rule.
They are minor in nature and do not
change any of the substantive
provisions.
Upon receiving an excessive noise
report pursuant to § 229.121(b)(1), a
railroad must immediately correct any
conditions that are required to be
immediately corrected under part 229.
Examples are broken or missing
windows or broken or loose handholds
that are hitting the car body. For all
other items, the railroad can allow the
locomotive to operate until that
locomotive’s next 92-day periodic
inspection (as per § 229.23). At that
time, the railroad must inspect the
locomotive and attempt to identify the
item or items that it believes is
substantially contributing to the noise.
The mechanical employee inspecting
the locomotive will be held to the
standard of a reasonably prudent and
competent mechanical employee. When
the railroad can identify that item, FRA
expects that the railroad will repair and/
or replace that item. FRA understands
that there might be situations in which
a railroad brings a locomotive to the
shop and makes reasonable efforts to
identify a condition but is unable to do
so. FRA does not intend to penalize a
railroad in those situations. The railroad
shall maintain a record of the excessive
noise report, as well as records of any
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
maintenance or attempted maintenance.
(Records are discussed further in
§ 229.121(b)(4)).
If the repair of the item supposedly
contributing to the noise requires
significant shop or material resources
that are not readily available, the
railroad is not required to repair that
locomotive at the 92-day periodic
inspection. In that situation, the railroad
shall schedule its maintenance of that
item to coincide with other major
equipments repairs commonly used for
the particular type of maintenance
needed. The types of repairs to which
FRA is referring include difficult-toaccess equipment; vibration-isolating
systems such as bushings or elastomers;
and situations where the railroad had to
replace the insulation padding under
the cab or remove the insulation from
the inside of the cab walls.
A few commenters suggested that
FRA should require railroads to perform
regular, routine maintenance on
locomotives (such as adding window
seals or installing minor installation) as
a means of noise control. One
locomotive engineer wrote that he
believes that maintenance would greatly
reduce the noise levels in locomotive
cabs. Another engineer wrote that he
believes that interior noise, such as
‘‘worn bearing in the refrigerator’’ is the
most harmful to one’s ears, followed by
‘‘ ‘undercarriage squeaks’ ’’ at certain
speeds and over certain bumps in the
track.’’ The RSAC Working Group, along
with the FRA, considered this
recommendation, but decided to leave
the language as proposed. The Working
Group put a great deal of time and
thought into developing these
maintenance standards. Without any
new information upon which to act, the
FRA and RSAC Working Group do not
think it is appropriate to revise this
provision.
Section 229.121(b)(2) identifies
specific conditions which might lead a
locomotive cab occupant to file an
excessive noise report. This list is not
meant to be exhaustive; other items not
on this list may also lead an employee
to file an excessive noise report. These
listed maintenance items, along with the
design and build requirements in
§ 229.121(a), FRA believes, embody the
concept of OSHA’s engineering controls.
Whereas OSHA imposes a general
requirement on employers to use
engineering controls, FRA identifies
specific items that railroads must
address. This particular list evolved out
of discussions of an engineering
controls task force, a smaller group
PO 00000
Frm 00050
Fmt 4701
Sfmt 4700
within the RSAC Working Group.71 This
list contains items that are likely to
deteriorate over time and thus would
contribute to the noise level in the cab.
This includes: defective cab window
seals, defective cab door seals, broken or
inoperative windows, deteriorated
insulation or insulation that has been
removed for other reasons, and
unsecured panels in the cab. The list
also notes that air brakes that vent
inside the cab can be a noise source.
The task force recommended the list
of items to the Working Group, which
in turn recommended them to the
RSAC. The RSAC accepted this list and
recommended it to FRA. FRA adopted
the RSAC’s list, though with one
exception. FRA removed ‘‘unsecured
appurtenances in the cab’’ from the list.
One of FRA’s existing regulations,
§ 229.7, addresses this item, so FRA
believes it is unnecessary to also
include that item here. Section 229.7
identifies prohibited acts for locomotive
safety standards. It provides that a
locomotive and its appurtenances must
be in proper condition and safe to
operate.
While some of the other listed items
might appear duplicative of other
regulatory provisions, they are, in fact,
not fully addressed by FRA’s existing
regulations. For example, cab doors are
mentioned in § 229.119(a); that section
provides that ‘‘cab doors shall be
equipped with a secure and operable
latching device.’’ While a secure and
operable latching device is one
component of a door, there are several
other components to a door; some of
which could result in noisy conditions,
such as door hinges, missing doors, or
a damaged door. Another item on the
list is cab windows; they are mentioned
in § 229.119(b), which provides that
windows of the lead locomotive shall
provide an undistorted view of the
right-of-way for the crew from their
normal position in the cab, and in
section 223, which discusses window
glazing. But there are other conditions
that might exist. Worn window framing
that permits a window to rattle is
probably not viewed as a defect under
FRA’s existing regulations but it might
be an unwanted noise source. The other
listed items—cab window seals, cab
door seals, and insulation—are not
currently covered in this context in any
of FRA’s existing regulations.
Section 229.121(b)(3) prescribes the
railroad response to an excessive noise
report. The rule provides that a railroad
has an obligation to respond to an
excessive noise report that a locomotive
71 See § III(C) for a discussion of the engineering
controls task force.
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
cab occupant files with the railroad.
This sentence, which was not contained
in the RSAC’s recommendation for the
NPRM, makes explicit a railroad’s
obligation to make an appropriate
response to cab occupant noise
concerns. FRA added this sentence as a
result of OSHA’s review of the NPRM.
The rest of this section was part of the
consensus document from the RSAC.
The rule also provides that a railroad
meets its obligation to appropriately
respond to an excessive noise report if
the railroad makes a good faith effort to
identify the cause of the reported noise.
In addition, if the railroad successfully
determines the cause of the reported
noise, then the railroad meets its
obligation to respond to the excessive
noise report if it repairs or replaces the
items causing the noise.
Section 229.121(b)(3) addresses a
concern that railroad representatives
raised during Working Group
discussions. The representatives were
concerned that they might be cited for
violations in situations where they had
inspected a condition (in response to a
excessive noise report) but were unable
to find a problem or where they had
inspected the locomotive, identified the
problem, and repaired that problem
only to later find out that the noise
concern continued to persist. It is not
FRA’s intention to cite railroads in these
situations. The purpose of this
regulation is to address unusually noisy
conditions in the cab and commensurate
with that, to ensure that railroads make
concerted, good faith efforts to identify
and, if possible, correct, such noisy
conditions.
Section 229.121(b)(4) contains the
recordkeeping requirements for this
section. The basic requirement is
located in § 229.121(b)(4)(i). Railroads
shall maintain a record of any excessive
noise report, inspection, test,
maintenance, replacement, or repair that
occurred pursuant to § 229.121(b)(1). In
that record, the railroad shall include
the date on which the employee filed
the excessive noise report; and the date
on which the railroad conducted the
inspection, test, maintenance,
replacement, and/or repair. The railroad
shall note any attempts to identify
conditions and any attempts to correct
conditions. The railroad may maintain
these records in written or electronic
form. If a railroad elects to maintain the
records electronically, the railroad must
satisfy the conditions listed in
§ 227.121(a)(2)(i) through (v). These
conditions are almost identical to the
electronic recordkeeping requirements
found in FRA’s existing track safety
standards, § 213.241(e). These
conditions are intended to safeguard the
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
integrity and authenticity of each
record.
Pursuant to § 229.121(b)(4)(ii),
railroads shall retain these records for
92 days if they are made pursuant to
§ 229.21; or for one year if they are made
pursuant to § 229.23. During RSAC
Working Group discussions, several
members suggested that railroads retain
these records for two years. Other
members suggested that a two-year
retention requirement was
unreasonable. The RSAC Working
Group discussed this two-year retention
option and instead decided to
recommend the 92 day/1 year retention
proposal. FRA adopted the RSAC
Working Group’s recommendation. FRA
believes the 92 day/1 year retention
proposal is most appropriate, because it
is consistent with the retention
requirements in existing FRA
locomotive inspection regulations at
§ 229.21 (‘‘Daily Inspection’’) and
§ 229.23 (‘‘Periodic inspection:
General’’).
There were commenters on both sides
of the issue regarding the record
retention period. Wilson, Ihrig, &
Associates wrote that the proposed
retention periods were too short and
that FRA should require railroads to
keep these records for the life of the
locomotive. With those records,
railroads could then follow a trail of
noise problems and identify
locomotives with chronic noise
problems. Wilson et al pointed out that
proposed retention period is
particularly inadequate given current
computer technology.
During RSAC Working Group
discussions, some members noted that
they do retain repair records for
extended periods of times. However,
Working Group members felt that they
did not want to require railroads to keep
records for extended periods of times.
Because they believe it makes the most
sense to treat repairs items related to
noise the same as other related items in
part 229, the RSAC Working Group, and
FRA, decided to leave this requirement
as proposed.
On the other side of the issue, LIRR
asserted that the retention requirement
was too long and that it would result in
an administrative burden and
significant cost for their commuter
railroad. In addition, LIRR asserted that
the re-creation of potential noise reports
of crews might be impossible during
static testing, thereby resulting in an
additional maintenance burden. For
example, the crew scenario might
include an Automatic Speed Control
warning sound while the whistle is
blowing, the bell is ringing, and the
engine is in high throttle position, but
PO 00000
Frm 00051
Fmt 4701
Sfmt 4700
63115
that would not necessarily be replicable
during static testing.
The RSAC Working Group, with FRA,
again concluded that it is best to retain
the proposed language. Railroad
interests are represented on the RSAC
by several railroad representatives, who
had agreed to this position. Moreover,
this recordkeeping requirement is
consistent with existing requirements
under §§ 229.21 and 229.23.
Presumably, railroads have a framework
in place for maintaining records for this
time frame and so railroads should
easily be able to add these excessive
noise reports to that framework. Finally,
FRA notes that there is no static testing
requirement associated with the
requirements in § 229.121(b). The static
testing requirements apply to
§ 229.121(a).
Section 229.121(b)(4)(iii) requires
railroads to establish an internal,
auditable monitorable system that tracks
the above-mentioned records, i.e., the
noise-related maintenance tasks. The
system should include, at a minimum,
information such as the locomotive
number, the date of the complaint or
inspection (from which the maintenance
task arose), the items thought to have
caused the problem, and the actions
taken to correct the problem. These
records can be maintained in writing or
electronically. As this is an auditable
system, FRA will review these records
as part of compliance audits.
Nothing in § 227.121(b) should be
read to discourage or limit the use of
equipment improvements or
innovations that arise after publication
of the final rule. In addition, nothing in
§ 227.121(b) should be read to
compromise existing duties found in
part 229 to make prompt repairs to other
components and systems (e.g., to
malfunctioning turbo chargers) that
generate noise in the cab and along the
wayside.
Appendix B to Part 229
FRA has amended the existing
schedule of civil penalties in Appendix
B to Part 229 and listed the penalties
that FRA will use in connection with
§ 229.121.
Appendices F–G to Part 229
Appendices F through G are being
reserved for future use.
Appendix H to Part 229
Appendix H is a set of procedures for
conducting in-cab static test
measurements of locomotives. Railroads
and locomotive manufacturers should
use this protocol to determine whether
they have built and, where necessary,
maintained locomotives that meet the
E:\FR\FM\27OCR2.SGM
27OCR2
63116
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
performance standards prescribed in
§ 229.121(a). In formulating this
protocol, FRA looked to several sources,
including the procedures used by
General Electric and General Motors’
Electric Motor Division, other
regulations concerning railroad noise
measurement,72 and various
measurement manuals and technical
reports on transportation noise
measurement and analysis.73
FRA presented an initial draft of
Appendix H at a RSAC Working Group
meeting in July 2002. At that meeting,
the Working Group established an
Appendix H task force to further
develop the procedures. The Task Force,
which consisted of FRA, railroad,
locomotive manufacturers, and labor
representatives met several times and
produced several drafts. The Task Force
made recommendations to the Working
Group, which in turn made
recommendations to the full RSAC.
RSAC ultimately recommended a
version of Appendix H to FRA that FRA
found acceptable. FRA considered all of
the factors and arguments raised in
these extensive discussions and
produced this appendix. With the
exception of changing the measurement
metric, FRA did not make any changes
to this appendix between the proposed
rule and final rule.
Earlier drafts of the appendix set forth
procedures that covered a wide range of
topics and addressed many elements
associated with measurement. Those
drafts contained specific provisions for
data collection, compliance,
environmental criteria, test site
requirements, and record keeping. Most
notably, those drafts contained
recommended measurement practices
for each of those provisions.
Some members of the Working Group
expressed concern with that approach.
They asserted that it was unnecessary to
include most of those recommended
measurement practices in the protocol,
since some of those recommended
practices are common practices already
used in the industry, are frequently
incorporated in ANSI standards, and are
often explained in manufacturer’s
instructions.74
72 See 40 CFR part 201, EPA’s ‘‘Noise Emission
Standards for Transportation Equipment; Interstate
Rail Carriers,’’ and 49 CFR part 210, FRA’s
‘‘Railroad Noise Emission Compliance Regulation.’’
73 See ‘‘Railroad Noise Control: The Handbook for
the Measurement, Analysis, and Abatement of
Railroad Noise,’’ Report No. DOT/FRA/ORD–82/02–
H (1982). See also ‘‘Measurement of HighwayRelated Noise,’’ Report No. DOT/VNTSC/FHWA–
96–5 (1996).
74 Many of the recommended practices, which
were removed from this appendix, are discussed in
the paragraphs below. They include the following:
the SLM should be calibrated annually, and/or the
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
After discussing these concerns, the
Working Group reformulated its
approach. The RSAC ultimately agreed
with this reformulated approach and
recommended it to FRA. FRA adopted
that recommendation. The overall goal
for Appendix H changed from the
development of an all-encompassing
specific, step-by-step measurement
procedure for testing entities to the
development of a minimum set of
measurement requirements necessary
for compliance with § 229.121(a). The
testing entities could use these
requirements as a basis for developing
their own more detailed measurement
procedures, if they so desired.
Accordingly, the recommended
practices were revised, modified, and in
some cases, removed. The paragraphs
below will discuss many of the
recommended practices that were found
in the earlier versions of the appendix
but have been removed from this
version.
While most of these recommended
practices have been removed from this
document, FRA still acknowledges their
utility and encourages railroads and
manufacturers to use them. FRA would
like to emphasize that if the agency
were to conduct a compliance test (or
re-test), its representatives (i.e.,
inspectors) would probably employ
many of these recommended practices,
along with the minimum standards set
out in Appendix H. FRA is likely to use
these measurement practices, because
they constitute good measurement
practices and add to the validity,
accuracy, and repeatability of
measurements. As an aside, FRA notes
that railroads and manufacturers are free
to use procedures that are more
stringent than those provided in this
protocol.
I. Measurement Instrumentation
This section discusses the
instrumentation that the testing entity
should use when conducting
measurements. This testing entity shall
use an integrating sound level meter
(iSLM) that meets the requirements of
ANSI S1.43–1997 (Reaffirmed 2002),
‘‘Specification for Integrating-Averaging
Sound Level Meters’’ and shall calibrate
the iSLM with an acoustic calibrator
that meets the requirements of ANSI
S1.40–1984 (Reaffirmed 2001),
‘‘Specification for Acoustical
Calibrators.’’ The testing entity should
SLM should be used with a tripod mountings or
positioned with a secure handhold. This provision
was ripe for removal, since it is often covered in
the manufacturer’s instructions and is also
discussed in ANSI S1.43–1997 (Reaffirmed 2002),
‘‘Specifications for Integrating-Averaging Sound
Level Meters.’’
PO 00000
Frm 00052
Fmt 4701
Sfmt 4700
use a Type 1 instrument, but where a
Type 1 instrument is not available, the
testing entity may use a Type 2
instrument.
An earlier draft of the appendix
included more specific calibration
requirements, meter specifications, and
mounting/orientation requirements. The
provisions in that draft required the
testing entity to follow the
manufacturer’s instruction for mounting
and orienting the microphone; to
calibrate the sound level measurement
system at least annually (as well as
conduct field/routine calibration); and
to use iSLMs that have the capability to
store for later retrieval the A-weighted,
equivalent sound level and maximum
sound level. In addition, the draft
suggested that the testing entity use an
iSLM with tripod mountings or with a
secured handhold. Some members of
the RSAC Working Group suggested the
removal of these specific requirements.
As one RSAC Working Group member
explained, these provisions are not
relevant to this section because they
apply to procedures, not
instrumentation specifications. FRA
decided that, overall, the removal of
these provisions would not be
detrimental since most of these items
are already addressed within the ANSI
standard, and many of these items
would be addressed in other sections of
this appendix. The original draft also
contained citations to certain
International Organization for
Standardization (ISO) and International
Electrotechnical Commission (IEC)
standards.75 At the request of an RSAC
Working Group member, FRA removed
these citations. The RSAC Working
Group member had explained that ISO
and IEC standards were unnecessary
and that the ANSI standards were
sufficient.
FRA sought comment from the public
on whether FRA should include ANSI
standards only or whether FRA should
also include reference to these ISO and/
or IEC standards. The AAR submitted
comments, reiterating its support for
using ANSI standards only. ASHA and
AIHA also noted its approval of using
ANSI standards only. Given that
response, FRA decided not to add cites
to the additional standards. In this final
rule, FRA has cited only to ANSI
standards.
The decision whether to require a
Type 1 or Type 2 instrument generated
a great deal of discussion. FRA had
considered requiring the use of Type 1
75 For example, the relevant IEC standards were
International Standard IEC 61672–1 (2002–05)
(concerning SLMs) and International Standard IEC
60942 (1997–11) (concerning microphone
windscreens and acoustic calibrators).
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
instruments, because they are more
precise instruments and because they
are used by other U.S. DOT modes.76
Some RSAC Working Group members
felt strongly that testing entities should
not be required to use Type 1
instruments. They asserted that the
minimal benefit derived from using
Type 1 instruments did not justify the
expensive cost of Type 1 instruments.
They asserted that there would be little
variance in the readings for the two
instruments, yet a Type 1 instrument
would cost $600 to $3,000 more than a
Type 2 instrument. In addition, they
pointed to other noise-related federal
regulations that allow the use of Type 2
devices.77 After extensive discussions,
the Working Group agreed to the
proposal in its current state. The RSAC
Working Group adopted that proposal,
as did the FRA. The proposal reflects a
compromise between FRA’s initial
preference to use Type 1 instruments
and certain industry member’s concerns
about a Type 1 requirement.
rmajette on PROD1PC67 with RULES2
II. Test Site Requirements
This section sets forth the
requirements for the testing site where
in-cab static measurements are
conducted. This section specifies the
placement of the locomotive, the
installation of locomotive
appurtenances, the operational
requirements for locomotives, and the
condition of the testing environment.
Number 1 provides that a locomotive
should not be positioned in an area
where large reflective surfaces are
directly adjacent to or within 25 feet of
the locomotive cab, and number 2
provides that a locomotive should not
be positioned where other locomotives
or rail cars are present on directly
adjacent tracks next to or within 25 feet
of the locomotive cab.
FRA had considered more specific
requirements for numbers 1 and 2. FRA
considered an initial draft listed types of
large reflective surfaces from which the
test site should be free (barriers, hills,
signboards, parked vehicles,
locomotives, or rail cars on adjacent
tracks, bridges, or buildings); required
both sides of the locomotive to be clear
of large reflective surfaces (for a
minimum distance of 400 feet); and
excluded locomotives and rail cars
76 Federal Aviation Administration (FAA)
standards require the use of Type 1 instruments.
See 14 CFR part 36, Appendix G, Section
G36.105(b). Federal Highway Administration
(FHWA) standards recommend the use of Type 1
meters. See ‘‘Measurement of Highway-Related
Noise,’’ Report No. DOT/VNTSC/FHWA–96–5
(1996) for the specific FHWA criteria and
recommendations.
77 See e.g., 49 CFR 393.94(c)(4); 40 CFR 201.22(a);
and 49 CFR 229.129(b).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
directly in front of or behind the test
locomotive from that 400 foot
requirement. Subsequent drafts also
considered minimum distances of 100
feet, 25 feet, and zero feet. FRA decided
that the 25 foot requirement was the
most appropriate distance, because it
did not impose a financial burden on
the testing entities (as a 100 or 400 foot
requirement would have) yet it still
provided a minimum distance of
separation between the locomotive and
reflective surfaces. Also, 25 feet is a
smaller distance, so it allows for an
easily-duplicated test area. An earlier
draft also specified track conditions (tie
and ballast track that is free of track
work, bridges, and trestles) and
recommended the removal of all
unnecessary equipment from the cab.
The intent of these more restrictive
provisions for numbers 1 and 2 was to
ensure that there was an adequate
distance between the tested locomotive
and other noise sources and/or
reflective surfaces. This would isolate
in-cab noise (due to the locomotive)
from other contaminating noise sources,
which in turn, would produce the best
quality measurements.
Members of the RSAC Working Group
raised several concerns with these
provisions. They felt that several of
these requirements were ambiguous.
They also explained that noise sources
and reflecting objects, for the most part,
affect measurements by making the incab noise levels higher, so if a
locomotive complies with FRA’s
regulatory requirements when measured
in these noisy circumstances, then the
locomotive is performing better than
expected. In addition, they stated that
the creation of a specified test area free
of large, reflecting surfaces and other
noise sources would create an economic
burden on the testing entities. Following
lengthy discussions, Working Group
consensus, and RSAC approval, FRA
adopted the current proposal—i.e., the
testing entity has discretion to decide
whether it wants to conduct these
measurements in a test area that is free
of reflecting objects and noise sources or
in a test area that is a less ideal
environment.
Number 3 specifies the condition of
locomotive appurtenances during
testing. It provides that ‘‘[a]ll windows,
doors, cabinets, seals, etc., must be
installed in the locomotive and be
closed.’’ Numbers 4 and 5 contain
operational requirements. They specify
that a locomotive must be warmed up to
standard operating temperature and that
the heating/ventilation/air conditioning
(HVAC) system must be operating on
high. FRA has included these
operational requirements to ensure that
PO 00000
Frm 00053
Fmt 4701
Sfmt 4700
63117
a tested locomotive’s performance is
typical of a normally-operating
locomotive, and to ensure that any
results are replicable based on a
standardized locomotive operational
criteria.
Number 6 provides that ‘‘[t]he
locomotive shall not be tested in any
site specifically designed to artificially
lower in-cab noise levels.’’ For example,
a site should not contain sound
absorbent materials. This concept was
originally contemplated in more specific
terms, i.e., the ‘‘test site railroad track
shall be tie and ballast, free of special
track work and bridges or trestles.’’ The
purpose of that concept was to ensure
that testing entities did not create
conditions that artificially lower the
noise measurements. In order to capture
this concept in broader and more
generic terms, the FRA drafted this
provision with this current language.
III. Procedures for Measurement
This section provides detailed
measurement procedures to be used
during testing. Number 1 specifies the
settings for the integrating-averaging
sound level meters (iSLM). FRA has
made a change to this provision since
the NPRM. FRA changed the metric here
and in two other locations (§§ III(8) and
(9)). In the proposed rule, FRA used Lav.
Lav is a non-ANSI metric that was
developed for this regulation in order to
accommodate certain RSAC Working
Group members’ desire to use a 5 dB
exchange rate for this measurement. In
this final rule, FRA is using the LAeq, T.
LAeq, T is a standardized metric defined
in ANSI S1.1–1994, ‘‘Acoustical
Terminology’’ and is a commonly used
acoustic metric.
One commenter explained that the Lav
was an inappropriate measure. He stated
that most sound level meters do not
have the capability to measure the Lav;
they instead measure the LAeq, T. Under
the requirement in the proposed rule,
railroads would have had to purchase
completely new equipment, which
would be very costly. Another
commenter wrote that use of the Lav was
not justified technically, since the
acoustical community would normally
use LAeq, T. FRA, and the Working
Group, agreed with these commenters
and changed Appendix H accordingly.
Numbers 2 and 3 address the
calibration procedure for iSLMs.
Calibration is a method of validating the
performance of the measurement
equipment and is important, because it
verifies the accuracy of measurements.
Both field system (routine) and
laboratory (comprehensive) calibration
should be conducted on iSLMs.
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
Where:
N = number of time intervals over which the
measurements are taken,
ti = time duration of the I-th interval,
T = the total time duration of the
measurement (i.e.: = t1 + t2 + * * * + tN),
and
Li = the A-weighted sound level of the I-th
interval.
LAeq, T should be measured, either
directly or by using a one second
sampling interval, for a minimum
duration of 30 seconds (LAeq, 30s). The
sampling rate and measurement
duration rate specify how often samples
are taken over a specified time range
and are used to compute the equivalent
sound level. FRA determined that, due
to the continuous nature of in-cab noise,
a 30-second measurement duration was
sufficient to accurately represent in-cab
noise levels.
PO 00000
Frm 00054
Fmt 4701
Sfmt 4700
1 N
p2
A
L Aeq , T = 10 × log10 ∑ t i × 2i
po
T i =1
Where:
T = the total time duration of the
measurement;
pA(t)= instantaneous, A-weighted sound
pressure as a function of time (t); and
po = the reference pressure.
This equation deals with a continuous
sound pressure as a function of time
(pA(t)), and the integral of that
continuous sound pressure over the
measurement interval divided by the
duration represents an average of that
sound pressure. When looking at
discretely sampled sound pressure data,
this average may be represented by a
sum of the discrete samples divided by
the measurement duration. See below.
1 T p2 ( t )
L Aeq , T = 10 × log10 ∫ A 2 dt
T 0 po
Where:
N = number of time intervals over which the
measurements are taken;
ti = time duration of the I-th interval;
T = the total time duration of the
measurement (i.e.: = t1 + t2 + * * * + tN);
pA i = the A-weighted sound pressure of the
I-th interval.
Sound pressure level is related to
sound pressure by the following
equation:
p2 i
A
2
po
= 10Li 10
Where: Li = the A-weighted sound level of
the I-th interval.
The combination of the two above
equations produces the equation for
calculating LAeq, T presented in this
rulemaking.
Number 9 specifies the standard for
determining compliance with 49 CFR
229.121(a). It provides that the highest
(i.e., loudest) measurement of the four
LAeq, 30s measurements in the locomotive
cab should be used as the end metric to
determine whether the locomotive
complies with § 229.121(a). Although
this standard uses a measurement that is
not representative of all four
measurements in the locomotive cab, it
provides a measurement that is most
E:\FR\FM\27OCR2.SGM
27OCR2
ER27OC06.003</MATH>
L Aeq , T
1 N
= 10 × log10 ∑ t i × 10Li 10
T i =1
The LAeq, T equation obtained from the
relevant ANSI standard (ANSI S1.1–
1994, ‘‘Acoustical Terminology’’) is a
calculus equation while the LAeq, T
equation used in FRA’s rule is a noncalculus equation. The two equations
are equivalent, as described below.
The LAeq, T equation from the relevant
ANSI standard is as follows:
ER27OC06.002</MATH>
however the data indicated a mean and
median sound level difference of two
decibels between locomotives under
load and locomotives not under load.
FRA had proposed a four decibel
adjustment (i.e., the mean of
approximately two decibels plus one
standard deviation of 1.518). The
Working Group, and ultimately the
RSAC, recommended an adjustment of
three decibels.
After considering the RSAC Working
Group recommendation, FRA decided to
use a three decibel adjustment.
However, FRA is also requiring
manufacturers and railroads to record
the load conditions during testing. The
records requirement is located in the
record keeping section; it states that a
testing entity should maintain records of
testing conditions and procedures,
including whether or not the locomotive
was tested under self loading
conditions. (See § IV, number 5).
Number 7 requires manufacturers and
railroads to record the sound level at the
highest horsepower or throttle setting.
These settings were selected, because
they produce the highest noise level
inside the locomotive cab.
Number 8 specifies the metric,
sampling rate, and measurement
duration for in-cab static measurements.
FRA has changed the metric from Lav to
LAeq, T, as discussed in § III(1) above.
LAeq, T represents a level of continuous
constant sound that is equivalent to the
same amount of A-weighted acoustic
energy of the actual time-varying source.
For this rulemaking, the following
equation should be used to calculate
LAeq, T.
ER27OC06.001</MATH>
Number 4 identifies the four locations
at which microphones should be placed
and measurements taken. There are four
measurements in the cab: above the left
seat, above the right seat, between the
seats, and near the center of the back
wall. FRA had considered the inclusion
of two additional microphone
positions—one above the toilet and one
in the front vestibule of the locomotive
cab. As explained by various RSAC
Working Group members, these
positions are not representative of
positions inside the locomotive cab
where crew members spend a
substantial amount of time; they are
merely transient points through which
cab employees pass through to enter or
exit the cab or to go to the bathroom. In
addition, these locations vary by
locomotive, including some locomotives
that do not have these positions.
Accordingly, FRA did not include those
two measurement positions.
Number 5 specifies that the
individual conducting the test should be
as far away as possible from the
measurement microphone. This is so
that the individual does not impact the
measurement, e.g., shield the
microphone from noise sources. For the
same reason, the procedure also
specifies that only two people can be
inside the locomotive cab during
testing.
Number 6 requires the manufacturer
or railroad to test a locomotive under
self-loading conditions if the locomotive
is equipped with self-load. The purpose
of this provision is to ensure that the incab noise level during testing is
representative of the in-cab noise level
during operation (i.e., under load).
Conducting the test in self-load mode
simulates the operation of a locomotive
that is pulling cars. It is important that
the noise measurements are obtained
under self-load, because the locomotive
is under additional stress and generates
more noise while under self-load. In-cab
noise levels of a locomotive that is selfloaded are noticeably louder than those
in a locomotive that is not self-loaded
and so this provision is necessary.
If the locomotive is not equipped with
the ability to operate in the self-load
mode, the manufacturer or railroad shall
test the locomotive with ‘‘no-load’’ and
add three decibels to the measured
level. ‘‘No-load’’ is defined as maximum
RPM, with no electric load. The AAR
submitted a report to FRA in June 2003.
The report, ‘‘Locomotive Static Noise
Tests,’’ provided data on the noise
levels for locomotives that are selfloading and those that are not selfloading. The testing data showed little
correlation between the condition of
various cab features and noise levels,
ER27OC06.000</MATH>
rmajette on PROD1PC67 with RULES2
63118
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
representative of how loud it can be in
a locomotive cab. It accounts for the
worse noise levels in the locomotive
cab. Also, the ‘highest LAeq, 30s standard’
has the advantage of requiring little
processing. In addition, locomotive
manufacturers currently use the ‘highest
LAeq, 30s standard.’ Please note that, as
discussed in § III(1) above, FRA has
changed the metric from Lav to LAeq, T.
While drafting the NPRM, FRA had
considered energy-averaging across the
four measurement positions. While
energy-averaging is a very good
representation of the overall noise levels
in the locomotive cab (because it
averages together all the energy levels),
averaging, in general, is not
representative of the worst, or loudest,
noise levels in the cab. Accordingly,
FRA chose not to energy-average across
the four positions.
Number 10 provides that if a
locomotive fails to meet the
requirements of § 229.121, the
locomotive may be re-tested according
to the requirements of Section II of this
appendix, ‘‘Test Site Requirements.’’
This concept originated as a provision
allowing a re-test in an area free of
reflective surfaces and noise sources for
a locomotive that fails a test. That
provision provided that: ‘‘If the test fails
under original acoustical field
conditions, adverse weather, or other
factors that may have contributed to the
failure, the test may be repeated in an
acoustic free field, fair weather, etc.’’
RSAC Working Group members
explained that railroads and
manufacturers already conduct these
types of tests, and they wanted to ensure
that this appendix allowed them to
continue doing so. As an alternative to
that provision, the RSAC Working
Group considered permitting such a test
as long as the test area was well-defined,
e.g., where the test area was defined as
an area free of large reflecting surfaces
or noise sources and that there was a
minimum distance of 200 feet around
the locomotive. That proposal was also
rejected, because some RSAC Working
Group members felt that the 200-foot
minimum distance was too restrictive.
Ultimately, then, FRA decided to
include the provision contained here in
number 9 (in the ‘‘Procedures for
Measurement’’ section); it provides that
a railroad or manufacturer may re-test a
locomotive if that locomotive fails a
static test. FRA also decided that the
testing entity must record the suspected
reason for the failure in its records. That
requirement is located in the record
keeping section (see § IV, number 7).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
IV. Recordkeeping
This section requires testing entities
to maintain records of their testing.
They must retain these records for a
minimum of three years and may keep
these records in either written or
electronic form. Those records include:
the name of the person conducting the
test and date of the test; the description
of the tested locomotive; the description
of the sound level meter and calibrator;
the recorded measurement during
calibration and for each microphone
location during operating conditions;
any other information necessary to
describe the testing conditions and
procedures (e.g., whether the
locomotive was tested under selfloading conditions); and, where
applicable, the suspected reason for a
test failure (where a locomotive fails a
test and can be re-tested under § III(9)).
V. Removed Sections
There were several provisions which
were considered but ultimately were not
included in the appendix. In particular,
there were two notable sections:
Environmental Criteria and Quantities
Measured, as well as the requirement of
pre- and post-background testing.
A. Environmental Criteria
The Environmental Criteria specified
optimal meteorological conditions that
should be followed during testing. The
criteria provided that meteorological
conditions, such as precipitation or
wind, should not interact with the
locomotive or rail car such that they are
audible from within the cab. The
purpose of specifying this criteria was to
prevent those factors from interfering
with the measurements and invalidating
the test. In general, conducting noise
measurements under favorable
meteorological conditions is a good, and
common, practice. However, some
RSAC Working Group members
believed that these conditions should be
left up to the testing entity’s best
judgement. Moreover, they asserted that
they did not believe that entities would
conduct noise testing during severe
weather conditions that would be
audible in the cab. Because these
conditions would only serve to raise the
noise level inside the cab (and would
only make it more difficult, not easier,
for a locomotive to pass a test), this
requirement was not included in the
appendix.
The Environmental Criteria also
provided that the air temperature and
relative humidity inside the cab should
be within the manufacturer’s
recommended operational ranges for the
iSLM or the individual measurement
PO 00000
Frm 00055
Fmt 4701
Sfmt 4700
63119
instrumentation. This requirement was
initially placed in the appendix to
account for the temperature and
humidity restrictions specified by
microphone and acoustic measurement
instrumentation manufacturers in their
supplemental literature. Members of the
RSAC Working Group acknowledged
that these restrictions are mentioned in
the ANSI standard and are part of the
proper operation of a sound level meter.
As a result, FRA decided that it was
unnecessary to repeat these
requirements in this appendix.
B. Quantities Measured
The ‘‘Quantities Measured’’ section
specified the metrics that should be
used in the measurement procedure. It
noted that all instances of exterior noise
contamination that is audible inside the
cab should be noted and that any noise
level above 115 dB(A) would invalidate
the noise test. All of the information
contained in this section was already
stated in other parts of the appendix and
NPRM, so FRA decided to simplify the
appendix and remove this section.
C. Pre- and Post-Background Testing
FRA had considered pre- and postbackground testing requirements. There
was much discussion about this
requirement, and ultimately, the RSAC
Working Group recommended not to
include it in this protocol. In an early
proposal, this provision required
manufacturers and railroads to observe
the sound levels before and after the
static test measurements (at each of the
in-cab measurement locations) and
ensure that those sound levels were at
least 10 dB(A) below the sound level
observed during the in-cab static
measurements. Manufacturers and
railroads were to measure the pre- and
post-tests when the locomotive was shut
down, and the sound level
measurements were to be representative
of the ambient noise in the cab during
the test. In a later revised form, this
provision required manufacturers and
railroads to establish baseline noise
levels in the cab (on a locomotive that
has been shut down) after completing
the testing at the high horsepower/
throttle setting.
FRA presented this requirement
because of the utility of background
noise measurements; they provide key
pieces of information that can be vital
to the procedure and the validity of the
measurements. First, pre- and post-noise
measurements ensure that ambient
noise does not interfere with the test
measurement. If the background noise is
the same (or at least very similar) during
the pre- and post-background noise
measurement, one can infer that the
E:\FR\FM\27OCR2.SGM
27OCR2
63120
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
background noise did not impact the
noise measurement test. Second, preand post-testing, along with notation of
extraneous noise contamination during
the test measurement, ensures that the
measurements are not affected by
additional noise sources that are
atypical of the in-cab noise
environment. If there is a variation
between the pre- and post-noise
measurements and there are notations of
extraneous noises during the test
measurement, that might indicate that
there were changes in the test
environment (e.g., changing weather
conditions, additional noise sources,
etc.). Third, the use of pre- and posttesting ensures that the measurements
obtained are actually from the source
that is being measured. They ensure that
the sound levels measured in the
locomotive cab are actually due to the
loaded locomotive, and not due to some
other noise source.
Several RSAC Working Group
members did not want to include a preand post-background noise
measurement requirement in the
appendix. They explained that they
were not concerned with background
noise if it did not impact the
locomotive’s ability to pass the test.
They further asserted that a background
noise level shift, even if it were 10 dB
or more, is still probably below the
criterion level and thus, is most likely
irrelevant to whether or not the
locomotive meets the criteria of this
protocol. They also explained that, if
there were external noise occurrences
during the static test and those external
noise occurrences effected the test, then
the testing entity would simply conduct
another test. Finding these arguments
persuasive, FRA has decided to remove
the pre- and post-background testing
requirement, in accordance with RSAC
Working Group’s recommendation.
VI. Regulatory Impact and Notices
rmajette on PROD1PC67 with RULES2
A. Executive Order 12866 and DOT
Regulatory Policies and Procedures
This rule has been evaluated in
accordance with existing policies and
procedures, and determined to be
significant under both Executive Order
12866 and DOT policies and procedures
(44 FR 11034; February 26, 1979). FRA
has prepared and placed in the docket
a regulatory analysis addressing the
economic impact of this final rule. For
access to the docket to read the
regulatory analysis, go to https://
dms.dot.gov at any time or to Room PL–
401 on the plaza level of the Nassif
Building, 400 Seventh Street, SW.,
Washington, DC, between 9 am and 5
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
pm, Monday through Friday, except
Federal holidays.
As part of the regulatory impact
analysis, FRA has assessed quantitative
measurements of costs expected from
the adoption of this final rule. Over a
twenty-year period, the Present Value
(PV) of the estimated costs is $15.4
million. The analysis also includes
qualitative discussions and quantified
examples of the benefits for this final
rule. The analysis concludes that an
average savings of 24 noise-induced
hearing loss cases per year would cover
the average annual costs of the final
rule.
The costs anticipated from adopting
this final rule include: implementation
of noise monitoring programs,
implementation of hearing conservation
programs, audiometric testing, hearing
protection, provisions of hearing
conservation training, and additional
locomotive maintenance related to noise
issues.
The major benefit anticipated from
implementing this final rule will be the
savings from a reduction in noiseinduced hearing loss cases among
railroad operating employees. Other
quantifiable benefits include: reductions
in employee absenteeism due to noise
exposures, reductions in employee
injuries related to noise exposures, and
reductions in human factor caused train
accidents. In addition, qualitative
benefits should accrue from improved
cab crew communications; increased
employee performance due to decreased
noise exposures; decreased vision issues
related to noise exposures; and
decreased stress and fatigue.
B. Regulatory Flexibility Act of 1980 and
Executive Order 13272
The Regulatory Flexibility Act of 1980
(5 U.S.C. 601 et seq.) requires a review
of proposed and final rules to assess
their impact on small entities. FRA has
prepared and placed in the docket a
Regulatory Flexibility Assessment (RFA)
which assesses the small entity impact.
For access to the docket to read the
RFA, go to https://dms.dot.gov at any
time or to Room PL–401 on the plaza
level of the Nassif Building, 400
Seventh Street, SW., Washington, DC,
between 9 am and 5 pm, Monday
through Friday, except Federal holidays.
Executive Order No. 13272, ‘‘Proper
Consideration of Small Entities in
Agency Rulemaking,’’ requires a Federal
agency, inter alia, to notify the Chief
Counsel for Advocacy of the U.S. Small
Business Administration (SBA) of any of
its draft rules that would have a
significant economic impact on a
substantial number of small entities, to
consider any comments provided by the
PO 00000
Frm 00056
Fmt 4701
Sfmt 4700
SBA, and to include in the preamble to
the rule the agency’s response to any
written comments by the SBA unless
the agency head certifies that including
such material would not serve the
public interest. See 67 FR 53461
(August 16, 2002).
The SBA stipulates in its Table of Size
Standards 78 that the largest a ‘‘forprofit’’ railroad business firm can be,
and still be classified as a ‘‘small
entity,’’ is 1,500 employees for ‘‘LineHaul Operating’’ Railroads and 500
employees for ‘‘Switching and Terminal
Establishments.’’ ‘‘Small entity’’ is
defined in 5 U.S.C. 601 as a small
business concern that is independently
owned and operated and is not
dominant in its field of operation. SBA’s
‘‘size standards’’ may be altered by
Federal agencies in consultation with
the SBA and in conjunction with public
comment. Pursuant to that authority,
FRA has published a final policy which
formally establishes ‘‘small entities’’ as
being railroads which meet the line
haulage revenue requirements of a Class
III railroad. See 68 FR 24891 (May 9,
2003). Currently, the revenue
requirements are $20 million or less in
annual operating revenue. The $20
million limit is based on the Surface
Transportation Board’s (STB’s)
threshold of a Class III railroad carrier,
which is adjusted by applying the
railroad revenue deflator adjustment.79
The same dollar limit on revenues is
established to determine whether a
railroad shipper or contractor is a small
entity. However, in this rule, FRA is
using a different size standard.
Consistent with FRA’s proposal in the
NPRM, FRA is defining small entities as
those having ‘‘less than 400,000 annual
employee hours.’’ FRA has used this
standard in the past 80 to alleviate
reporting requirements. By using this
standard for small railroads, FRA is
capturing most small entities that would
be defined by the SBA as small
businesses. Since FRA published this
alternate standard in the NPRM, FRA
has sought and received written
permission from the SBA to use the
alternative size standard for purposes of
this rulemaking. FRA did not receive
any comments during the public
comments related to this issue or
request.
For this rulemaking there are
approximately 410 small railroads that
could potentially be affected by this
78 13
CFR part 121.
further information on the calculation of
the specific dollar limit please see 49 CFR Part
1201.
80 See 49 CFR parts 217, 219, and 220.
79 For
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
regulation.81 FRA does not expect this
regulation to impose a significant
burden on these small railroads. Tourist,
Steam and Historic operations are not
required to meet any of the
requirements. Thus, approximately 220
very small railroad operations will incur
no burden from this rulemaking.
This final rule will also not extend to
contractors who operate historic
equipment in occasional service, as long
as those contractors have been provided
with hearing protection and are required
(where necessary) to use the hearing
protection while operating the historic
equipment. Most of these type of
contractors are very small businesses
operated by self-employed current,
former, or retired railroad employees.
These operations would certainly be
classified as a small business. FRA does
not know how many of these types of
operations could potentially be affected
by this final rule. Since this regulation
is not extending coverage to these
operations, none of them would be
impacted.
FRA’s final rule requires railroads to
establish a hearing conservation
program for railroad operating
employees’ who have noise exposures
that equal or exceed an 8-hour timeweighted average of 85 dB(A), i.e., the
action level. Railroad noise monitoring
data 82 indicates that only about 45
percent of the employee assignments
would require inclusion in a hearing
conservation program. Therefore, FRA
expects that less than 50 percent of the
affected employees on small railroads
will be included in a hearing
conservation program. FRA expects that
after initial noise exposure monitoring,
some small railroads will not need to
establish hearing conservation
programs, because none of their work
assignments will meet or exceed the
action level.
This final rule contains a few
reporting and recordkeeping
requirements. The requirements that do
exist primarily involve records that are
needed for medical purposes,
compliance assessment, and program
evaluation.
The impacts from this final rule are
primarily a result of complying with the
requirements for establishing hearing
conservation programs and the elements
of these programs. In general, the costs
are proportional to the number of
employees that would be affected on a
railroad. Thus, the impacts on small
entities should be relatively less than
they would be for medium and large
railroads. However, most large and some
medium railroads currently have
voluntary and/or OSHA hearing
conservation programs, which would
simplify and ease compliance with this
final rule. FRA anticipates that the
burdens would be from developing
hearing conservation programs,
conducting noise monitoring, providing
hearing protectors, and locomotive
noise maintenance related to responding
excessive noise reports.
The two requirements that have the
greatest impact are the audiometric
testing requirement and the training
requirement. The purpose of FRA’s
audiometric testing program section is
to provide the requirements for railroads
to establish and maintain an
audiometric testing program for
employees that are covered by the
hearing conservation program. It
requires railroads to establish a baseline
audiogram and then to conduct periodic
audiograms. It also specifies the
requirements for conducting, evaluating,
and following-up with the audiograms.
FRA estimates that the average cost of
audiograms, (i.e., hearing tests) is $40
each, and that each audiogram will take
an average of 25 minutes. FRA also
requires railroads to conduct periodic
audiometric testing of covered
employees at least once every three
years. FRA requires that audiograms be
offered annually to all covered
employees.
FRA’s training program, in general, is
similar to OSHA’s hearing conservation
training program. FRA requires each
employee to complete the hearing
training program at least once every
three years. By contrast, OSHA requires
employees to complete a hearing
training program at least once a year.
FRA anticipates that the short line
railroad association will develop a
generic program for training that its
members can utilize.
For compliance purposes, this final
rule provides an exception for Tourist,
Steam and Historic railroad operations.
In addition, railroads with less than
400,000 annual employee hours will
receive additional time to comply with
the three most significant burdens and
costs. First, these railroads will have an
additional 18 months to establish
hearing conservation programs. Second,
these railroads will have an additional
12 months to establish valid baseline
audiograms for employees that have
been placed in the FRA hearing
conservation program. Third, these
railroads will have an additional 12
months to establish hearing
conservation training programs. The
rulemaking process for this final rule
included outreach to small entities. The
proposal for the NPRM and this final
rule was produced by the RSAC.
Representation on this committee
included the ASLRRA.
This final Regulatory Flexibility
Assessment (RFA) concludes that the
rule would not have a significant
economic impact on a substantial
number of small entities. Thus, the FRA
certifies that this final rule is not
expected to have an ‘‘significant’’
economic impact on a ‘‘substantial’’
number of small entities. In order to
determine the significance of the
economic impact for the final rule’s
RFA, FRA reviewed and considered all
pertinent comments from all interested
parties concerning the potential
economic impact on small entities.
As noted above Executive Order No.
13272 requires Federal agencies to
notify the SBA Office of Advocacy of
any of its draft rules that would have a
significant economic impact on a
substantial number of small entities.
Since FRA has determined that this
final rule would not have significant
impact on a substantial number of small
entities, FRA has not provided any
notification to the SBA.
C. Paperwork Reduction Act of 1995
The information collection
requirements in this final rule will be
submitted to the Office of Management
and Budget (OMB) under the Paperwork
Reduction Act of 1995, 44 U.S.C. 3501
et seq. The sections that contain the new
information collection requirements and
the estimated time to fulfill each
requirement are as follows:
rmajette on PROD1PC67 with RULES2
CFR Section—49 CFR
Respondent
universe
Total annual responses
Average time per response
227.13—Waivers ..............................
227.103—Noise Monitoring Program
—Notification to Employee of
Monitoring.
460 Railroads .........
460 Railroads .........
460 Railroads .........
5 petitions ...............................
460 programs .........................
905 lists ..................................
1 hour .....................................
2 hours/8 hours/600 hours .....
30 minutes ..............................
81 680 railroads¥220 (Tourist, Steam & Historic)
railroads¥50 (large, medium, passenger and
commuter) = 410 railroads.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
Total annual
burden hours
82 See FRA’s Regulatory Impact Analysis,
Appendix C.
PO 00000
Frm 00057
Fmt 4701
Sfmt 4700
63121
E:\FR\FM\27OCR2.SGM
27OCR2
5
5,165
453
Total annual burden
cost
$190
0 (incl. in RIA)
17,214
63122
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Respondent
universe
Total annual responses
Average time per response
227.107—Hearing Conservation Program (HCP).
—Revised Hearing Conservation Programs (HCPs).
227.109—Audiometric
Testing
Prog.—Existing Employees; Baseline Audiograms.
—Periodic Audiograms ..............
—Evaluation of Audiograms ......
—Problem Audiograms .............
—Follow-up Procedures—Notifications.
—Fitting/Training of Employees:
Hearing Protectors.
—Referrals
for
Clinical/
Otological Examinations.
—Notification to Employee of
Need: Otological Exam.
—New Audiometric Interpretation.
227.111—Audiometric Test Requirements.
227.117—Hearing Protection Attenuation Evaluation.
—Re-Evaluations .......................
227.119—Hearing
Conservation
Training Prog—Development.
—Employee Training .................
—Periodic Training ....................
227.121—Record Keeping—Authorization: Records.
—Requests for Copies of Reports.
—Records Transfer When Carrier Becomes Defunct.
—Railroad Audiometric Test
Records.
—Hearing Conservation Program (HCP) Records.
—HCP Training Records of Employees.
—Records: Standard Threshold
Shifts of Employees.
229.121—Locomotive Cab Noise—
Tests/Certifications.
—Equipment Maintenance: Excessive Noise Reports.
—Maintenance Records ............
—Internal Auditable Monitoring
Systems.
Appendix H—Static Test Protocols/
Records.
rmajette on PROD1PC67 with RULES2
CFR Section—49 CFR
460 Railroads .........
461 HCPs ...............................
2,875
0 (incl. in RIA).
460 Railroads .........
92 HCPs .................................
150 hours/2 hours/31 hours/
7.5 hours.
1.74 hours ...............................
160
0 (incl. in RIA).
78,000 Employees
60,000 audiograms + 6,000
audiograms.
7 min./25 min ..........................
7,000 + 2,500
0 (incl. in RIA).
78,000 Employees
78,000 Employees
8,000 Employees ...
8,000 Employees ...
8,000 audiograms ...................
2,330 evaluations + 93 retests
45 documents .........................
93 notifications ........................
25 minutes ..............................
6 min./2.5 hours ......................
10 minutes ..............................
15 minutes ..............................
3,333
466
8
24
0 (incl. in RIA).
0 (incl. in RIA).
304.
912.
240 Employees ......
240 training sess ....................
2 minutes ................................
8
0 (incl. in RIA).
240 Employees ......
20 referrals/result ....................
2 hours ....................................
40
240 Employees ......
20 notifications ........................
5 minutes ................................
2
76.
240 Employees ......
20 notifications ........................
20 notifications ........................
2
76.
1,000 Mobile Vans
1,000 tests ..............................
45 minutes ..............................
750
52,500.
460 Railroads .........
50 evaluations ........................
30 minutes ..............................
25
1,750.
460 Railroads .........
460 Railroads .........
10 re-evaluations ....................
461 programs .........................
5
956
350.
0 (incl. in RIA).
460 Railroads .........
460 Railroads .........
460 Railroads .........
26,000 trained employees ......
7,000 tr. empl .........................
10 requests + 10 responses ...
30 minutes ..............................
8 hours/2 hours/116 hours/1
hour.
30 minutes ..............................
30 minutes ..............................
10 min. + 15 min ....................
13,000
3,500
5
0 (incl. in RIA).
0 (incl. in RIA).
130.
460 Railroads .........
150 requests + 150 responses
21 min. + 45 min ....................
166
0 (incl. in RIA).
460 Railroads .........
10 records ...............................
24 minutes ..............................
4
460 Railroads .........
26,000 records ........................
2 minutes ................................
867
0 (incl. in RIA).
460 Railroads .........
54,000 records ........................
45 seconds .............................
675
0 (incl. in RIA).
460 Railroads .........
26,000 records ........................
30 seconds .............................
217
8,246.
460 Railroads .........
280 records .............................
7 minutes ................................
33
3 Equipment Manuf
700 tests/certific ......................
40 min. + 5 min ......................
111
7,770.
460 Railroads .........
3,000 reports + 3,000 records
10 min. + 5 min ......................
750
22,500.
460 Railroads .........
570 Railroads .........
3,750 records ..........................
570 systems ...........................
8 minutes ................................
36 min. + 8.25 hour ................
500
572
0 (incl. in RIA).
0 (incl. in RIA).
700 Locomotives ....
2 retests + 2 ...........................
35 min. + 5 min ......................
1
0 (incl. in RIA).
All estimates include the time for
reviewing instructions; searching
existing data sources; gathering or
maintaining the needed data; and
reviewing the information. For
information or a copy of the paperwork
package submitted to OMB, contact Mr.
Robert Brogan, FRA’s Information
Clearance Officer, at 202–493–6292.
OMB is required to make a decision
concerning the collection of information
requirements contained in this proposed
rule between 30 and 60 days after
publication of this document in the
Federal Register.
FRA is not authorized to impose a
penalty on persons for violating
information collection requirements
which do not display a current OMB
control number, if required. FRA
intends to obtain current OMB control
numbers for any new information
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
collection requirements resulting from
this rulemaking action prior to the
effective date of this final rule. The
OMB control number, when assigned,
will be announced by separate notice in
the Federal Register.
D. Federalism Implications
Executive Order 13132, ‘‘Federalism’’
(64 FR 43255, Aug. 10, 1999), requires
FRA to develop an accountable process
to ensure ‘‘meaningful and timely input
by State and local officials in the
development of regulatory policies that
have federalism implications.’’ ‘‘Policies
that have federalism implications’’ are
defined in the Executive Order to
include regulations that have
‘‘substantial direct effects on the States,
on the relationship between the national
government and the States, or on the
distribution of power and
PO 00000
Frm 00058
Fmt 4701
Sfmt 4700
Total annual
burden hours
Total annual burden
cost
4,800.
152.
0 (incl. in RIA).
responsibilities among the various
levels of government.’’ Under Executive
Order 13132, the agency may not issue
a regulation with Federalism
implications that imposes substantial
direct compliance costs and that is not
required by statute, unless the Federal
government provides the funds
necessary to pay the direct compliance
costs incurred by State and local
governments, the agency consults with
State and local governments, or the
agency consults with State and local
government officials early in the process
of developing the proposed regulation.
Where a regulation has Federalism
implications and preempts State law,
the agency seeks to consult with State
and local officials in the process of
developing the regulation.
This is a rule with preemptive effect.
Subject to a limited exception for
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
essentially local safety hazards, its
requirements will establish a uniform
Federal safety standard that must be
met, and State requirements covering
the same subject are displaced, whether
those standards are in the form of State
statutes, regulations, local ordinances,
or other forms of State law, including
State common law. Preemption is
addressed in § 227.7 ‘‘Preemptive
effect,’’ as it was in the NPRM. As stated
in the corresponding preamble language
for § 227.7, section 20106 of Title 49 of
the United States Code provides that all
regulations prescribed by the Secretary
related to railroad safety preempt any
State law, regulation, or order covering
the same subject matter, except a
provision necessary to eliminate or
reduce an essentially local safety hazard
that is not incompatible with a Federal
law, regulation, or order and that does
not unreasonably burden interstate
commerce. This is consistent with past
practice at FRA, and within the
Department of Transportation.
FRA has analyzed this final rule in
accordance with the principles and
criteria contained in Executive Order
13132. The RSAC, which recommended
the final rule, has as permanent
members two organizations representing
State and local interests: the American
Association of State Highway and
Transportation Officials (AASHTO), and
the Association of State Rail Safety
Managers (ASRSM). The RSAC regularly
provides recommendations to the FRA
Administrator for solutions to regulatory
issues that reflect significant input from
its State members.
rmajette on PROD1PC67 with RULES2
E. Environmental Impact
FRA has evaluated these regulations
in accordance with its procedures for
ensuring full consideration of the
environmental impact of FRA actions,
as required by the National
Environmental Policy Act (42 U.S.C.
4321 et seq.), other environmental
statutes, Executive Orders, and DOT
Order 5610.1c. This final rule meets the
criteria that establish this as a non-major
action for environmental purposes.
F. Unfunded Mandates Reform Act of
1995
Pursuant to Section 201 of the
Unfunded Mandates Reform Act of 1995
(Pub. L. 104–4, 2 U.S.C. 1531), each
Federal agency ‘‘shall, unless otherwise
prohibited by law, assess the effects of
Federal regulatory actions on State,
local, and tribal governments, and the
private sector (other than to the extent
that such regulations incorporate
requirements specifically set forth in
law).’’ Section 202 of the Act (2 U.S.C.
1532) further requires that ‘‘before
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
promulgating any general notice of
proposed rulemaking that is likely to
result in the promulgation of any rule
that includes any Federal mandate that
may result in the expenditure by State,
local, and tribal governments, in the
aggregate, or by the private sector, of
$100,000,000 or more (adjusted
annually for inflation) in any 1 year, and
before promulgating any final rule for
which a general notice of proposed
rulemaking was published, the agency
shall prepare a written statement’’
detailing the effect on State, local, and
tribal governments and the private
sector. This final rule will not result in
the expenditure, in the aggregate, of
$128,100,000 or more in any one year,
and thus preparation of such a
statement is not required.
G. Energy Impact
Executive Order 13211 requires
Federal agencies to prepare a Statement
of Energy Effects for any ‘‘significant
energy action.’’ See 66 FR 28355; May
22, 2001. Under the Executive Order a
‘‘significant energy action’’ is defined as
any action by an agency that
promulgates or is expected to lead to the
promulgation of a final rule or
regulation, including notices of inquiry,
advance notices of proposed
rulemaking, and notices of proposed
rulemaking: (1)(i) That is a significant
regulatory action under Executive Order
12866 or any successor order, and (ii) is
likely to have a significant adverse effect
on the supply, distribution, or use of
energy; or (2) that is designated by the
Administrator of the Office of
Information and Regulatory Affairs as a
significant energy action. FRA has
evaluated this final rule in accordance
with Executive Order 13211. FRA has
determined that this final rule is not
likely to have a significant adverse effect
on the supply, distribution, or use of
energy. Consequently, FRA has
determined that this final rule is not a
‘‘significant energy action’’ within the
meaning of the Executive Order.
H. Privacy Act
Anyone is able to search the
electronic form of all comments
received into any of DOT’s dockets by
the name of the individual submitting
the comment (or signing the comment,
if submitted on behalf of an association,
business, labor union, etc). You may
review DOT’s complete Privacy Act
Statement published in the Federal
Register on April 11, 2000 (Volume 65,
Number 70, Pages 19477–78) or you
may visit https://dms.dot.gov.
PO 00000
Frm 00059
Fmt 4701
Sfmt 4700
63123
List of Subjects
49 CFR Part 227
Incorporation by reference,
Locomotives, Noise Control,
Occupational Safety and Health,
Penalties, Railroad safety, Reporting and
recordkeeping requirements.
49 CFR Part 229
Incorporation by reference,
Locomotives, Penalties, Railroad safety,
Reporting and recordkeeping
requirements.
The Rule
For the reasons discussed in the
preamble, the Federal Railroad
Administration amends chapter II,
subtitle B of Title 49, Code of Federal
Regulations, as follows:
I 1. Part 227 is added to read as follows:
I
PART 227—OCCUPATIONAL NOISE
EXPOSURE
Subpart A—General
Sec.
227.1 Purpose and scope.
227.3 Application.
227.5 Definitions.
227.7 Preemptive effect.
227.9 Penalties.
227.11 Responsibility for compliance.
227.13 Waivers.
227.15 Information collection.
Subpart B—Occupational Noise Exposure
for Railroad Operating Employees
227.101 Scope and applicability.
227.103 Noise monitoring program.
227.105 Protection of employees.
227.107 Hearing conservation program.
227.109 Audiometric testing program.
227.111 Audiometric test requirements.
227.113 Noise operational controls.
227.115 Hearing protectors.
227.117 Hearing protector attenuation.
227.119 Training program.
227.121 Recordkeeping.
Appendix A to Part 227—Noise Exposure
Computation
Appendix B to Part 227—Methods for
Estimating the Adequacy of Hearing
Protector Attenuation
Appendix C to Part 227—Audiometric
Baseline Revision
Appendix D to Part 227—Audiometric Test
Rooms
Appendix E to Part 227—Use of Insert
Earphones for Audiometric Testing
Appendix F to Part 227—Calculations and
Application of Age Corrections to
Audiograms
Appendix G to Part 227—Schedule of Civil
Penalties
Authority: 49 U.S.C. 20103, 20103 (note),
20701–20702; 49 CFR 1.49.
Subpart A—General
§ 227.1
Purpose and scope.
(a) The purpose of this part is to
protect the occupational health and
E:\FR\FM\27OCR2.SGM
27OCR2
63124
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
safety of employees whose predominant
noise exposure occurs in the locomotive
cab.
(b) This part prescribes minimum
Federal health and safety noise
standards for locomotive cab occupants.
This part does not restrict a railroad or
railroad contractor from adopting and
enforcing additional or more stringent
requirements.
§ 227.3
Application.
(a) Except as provided in paragraph
(b) of this section, this part applies to all
railroads and contractors to railroads.
(b) This part does not apply to—
(1) A railroad that operates only on
track inside an installation that is not
part of the general railroad system of
transportation;
(2) A rapid transit operation in an
urban area that is not connected to the
general railroad system of
transportation;
(3) A rapid transit operation in an
urban area that is connected to the
general system and operates under a
shared use waiver;
(4) A railroad that operates tourist,
scenic, historic, or excursion operations,
whether on or off the general railroad
system of transportation; or
(5) Foreign railroad operations that
meet the following conditions:
Employees of the foreign railroad have
a primary reporting point outside of the
U.S. but are operating trains or
conducting switching operations in the
U.S.; and the government of that foreign
railroad has implemented requirements
for hearing conservation for railroad
employees; the foreign railroad
undertakes to comply with those
requirements while operating within the
U.S.; and FRA’s Associate
Administrator for Safety determines that
the foreign requirements are consistent
with the purpose and scope of this part.
A ‘‘foreign railroad’’ refers to a railroad
that is incorporated in a place outside
the U.S. and is operated out of a foreign
country but operates for some distance
in the U.S.
rmajette on PROD1PC67 with RULES2
§ 227.5
Definitions.
As used in this part—
Action level means an eight-hour
time-weighted-average sound level
(TWA) of 85 dB(A), or, equivalently, a
dose of 50 percent, integrating all sound
levels from 80 dB(A) to 140 dB(A).
Administrator means the
Administrator of the Federal Railroad
Administration or the Administrator’s
delegate.
Artifact means any signal received or
recorded by a noise measuring
instrument that is not related to
occupational noise exposure and may
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
adversely impact the accuracy of the
occupational noise measurement.
Audiogram means a record of
audiometric testing, showing the
thresholds of hearing sensitivity
measured at discrete frequencies, as
well as other recordkeeping
information.
Audiologist means a professional,
who provides comprehensive diagnostic
and treatment/rehabilitative services for
auditory, vestibular, and related
impairments and who
(1) Has a Master’s degree or doctoral
degree in audiology and
(2) Is licensed as an audiologist by a
State; or in the case of an individual
who furnishes services in a State which
does not license audiologists, has
successfully completed 350 clock hours
of supervised clinical practicum (or is in
the process of accumulating such
supervised clinical experience),
performed not less than 9 months of
supervised full-time audiology services
after obtaining a master’s or doctoral
degree in audiology or a related field,
and successfully completed a national
examination in audiology approved by
the Secretary of the U.S. Department of
Health and Human Services.
Audiometry means the act or process
of measuring hearing sensitivity at
discrete frequencies. Audiometry can
also be referred to as audiometric
testing.
Baseline audiogram means an
audiogram, recorded in accordance with
§ 227.109, against which subsequent
audiograms are compared to determine
the extent of change of hearing level.
Class I, Class II, and Class III railroads
have the meaning assigned by the
regulations of the Surface
Transportation Board (49 CFR part 120;
General Instructions 1–1).
Continuous noise means variations in
sound level that involve maxima at
intervals of 1 second or less.
Decibel (dB) means a unit of
measurement of sound pressure levels.
dB(A) means the sound pressure level
in decibels measured on the A-weighted
scale.
Employee means any individual who
is engaged or compensated by a railroad
or by a contractor to a railroad to
perform any of the duties defined in this
part.
Exchange rate means the change in
sound level, in decibels, which would
require halving or doubling of the
allowable exposure time to maintain the
same noise dose. For purposes of this
part, the exchange rate is 5 decibels.
FRA means the Federal Railroad
Administration.
Hearing protector means any device
or material, which is capable of being
PO 00000
Frm 00060
Fmt 4701
Sfmt 4700
worn on the head, covering the ear canal
or inserted in the ear canal; is designed
wholly or in part to reduce the level of
sound entering the ear; and has a
scientifically accepted indicator of its
noise reduction value.
Hertz (Hz) means a unit of
measurement of frequency numerically
equal to cycles per second.
Medical pathology means a condition
or disease affecting the ear which is
medically or surgically treatable.
Noise operational controls means a
method used to reduce noise exposure,
other than hearing protectors or
equipment modifications, by reducing
the time a person is exposed to
excessive noise.
Occasional service means service of
not more than a total of 20 days in a
calendar year.
Otolaryngologist means a physician
specializing in diagnosis and treatment
of disorders of the ear, nose, and throat.
Periodic audiogram is a record of
follow-up audiometric testing
conducted at regular intervals after the
baseline audiometric test.
Person means an entity of any type
covered under 1 U.S.C. 1, including but
not limited to the following: a railroad;
a manager, supervisor, official, or other
employee or agent of a railroad; an
owner, manufacturer, lessor, or lessee of
railroad equipment, track, or facilities;
an independent contractor providing
goods or services to a railroad; and any
employee of such owner, manufacturer,
lessor, lessee, or independent
contractor.
Professional Supervisor of the
Audiometric Monitoring Program in a
hearing conservation program means an
audiologist, otolaryngologist, or a
physician with experience and expertise
in hearing and hearing loss.
Qualified Technician is a person who
is certified by the Council for
Accreditation in Occupational Hearing
Conservation or equivalent organization;
or who has satisfactorily demonstrated
competence in administering
audiometric examinations, obtaining
valid audiograms, and properly using,
maintaining, and checking calibration
and proper functioning of the
audiometers used; and is responsible to
the Professional Supervisor of the
Audiometric Testing Program.
Railroad means any form of nonhighway ground transportation that runs
on rails or electromagnetic guide-ways
and any entity providing such
transportation, including:
(1) Commuter or other short-haul
railroad passenger service in a
metropolitan or suburban area and
commuter railroad service that was
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
operated by the Consolidated Rail
Corporation on January 1, 1979; and
(2) High speed ground transportation
systems that connect metropolitan areas,
without regard to whether those systems
use new technologies not associated
with traditional railroads. The term
‘‘railroad’’ is also intended to mean a
person that provides transportation by
railroad, whether directly or by
contracting out operation of the railroad
to another person. The term does not
include rapid transit operations in an
urban area that are not connected to the
general railroad system of
transportation.
Representative personal sampling
means measurement of an employee’s
noise exposure that is representative of
the exposures of other employees who
operate similar equipment under similar
conditions.
Sound level or Sound pressure level
means ten times the common logarithm
of the ratio of the square of the
measured A-weighted sound pressure to
the square of the standard reference
pressure of twenty micropascals,
measured in decibels. For purposes of
this regulation, SLOW time response, in
accordance with ANSI S1.43–1997
(Reaffirmed 2002), ‘‘Specifications for
Integrating-Averaging Sound Level
Meters,’’ is required. The Director of the
Federal Register approves this
incorporation by reference of this
standard in this section in accordance
with 5 U.S.C. 552(a) and 1 CFR part 51.
You may obtain a copy of the
incorporated standard from the
American National Standards Institute
at 1819 L Street, NW., Washington, DC
20036 or https://www.ansi.org. You may
inspect a copy of the incorporated
standard at the Federal Railroad
Administration, Docket Room, 1120
Vermont Ave., NW., Suite 700,
Washington, DC 20005, or at the
National Archives and Records
Administration (NARA). For
information on the availability of this
material at NARA, call 202–741–6030,
or go to https://www.archives.gov/
federal_register/
code_of_federal_regulations/
ibr_locations.html.
Standard threshold shift (STS) means
a change in hearing sensitivity for the
worse, relative to the baseline
audiogram, or relative to the most recent
revised baseline (where one has been
established), of an average of 10 dB or
more at 2000, 3000, and 4000 Hz in
either ear.
Time-weighted-average eight-hour (or
8-hour TWA) means the sound level,
which, if constant over 8 hours, would
result in the same noise dose as is
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
measured. For purposes of this part, the
exchange rate is 5 decibels.
Tourist, scenic, historic, or excursion
operations means railroad operations
that carry passengers, often using
antiquated equipment, with the
conveyance of the passengers to a
particular destination not being the
principal purpose.
§ 227.7
Preemptive effect.
Under 49 U.S.C. 20106, issuance of
these regulations preempts any State
law, regulation, or order covering the
same subject matter, except an
additional or more stringent law,
regulation, or order that is necessary to
eliminate or reduce an essentially local
safety hazard; is not incompatible with
a law, regulation, or order of the United
States Government; and does not
impose an unreasonable burden on
interstate commerce.
§ 227.9
Penalties.
(a) Any person who violates any
requirement of this part or causes the
violation of any such requirement is
subject to a civil penalty of at least $550
and not more than $11,000 per
violation, except that: penalties may be
assessed against individuals only for
willful violations, and, where a grossly
negligent violation or a pattern of
repeated violations has created an
imminent hazard of death or injury to
persons, or has caused death or injury,
a penalty not to exceed $27,000 per
violation may be assessed. Each day a
violation continues shall constitute a
separate offense. See appendix H to this
part for a statement of agency civil
penalty policy.
(b) Any person who knowingly and
willfully falsifies a record or report
required by this part may be subject to
criminal penalties under 49 U.S.C.
21311.
§ 227.11
Responsibility for compliance.
Although the duties imposed by this
part are generally stated in terms of the
duty of a railroad, any person, including
a contractor for a railroad, who performs
any function covered by this part must
perform that function in accordance
with this part.
§ 227.13
Waivers.
(a) A person subject to a requirement
of this part may petition the
Administrator for a waiver of
compliance with such requirement. The
filing of such a petition does not affect
that person’s responsibility for
compliance with that requirement while
the petition is being considered.
(b) Each petition for waiver under this
section must be filed in the manner and
PO 00000
Frm 00061
Fmt 4701
Sfmt 4700
63125
contain the information required by part
211 of this chapter.
(c) If the Administrator finds that a
waiver of compliance is in the public
interest and is consistent with railroad
safety, the Administrator may grant the
waiver subject to any conditions the
Administrator deems necessary.
§ 227.15
Information collection.
(a) The information collection
requirements of this part were reviewed
by the Office of Management and
Budget pursuant to the Paperwork
Reduction Act of 1980 (44 U.S.C. 3501
et seq.) and are assigned OMB control
number 2130–NEW.
(b) The information collection
requirements are found in the following
sections: §§ 227.13, 227.103, 227.107,
227.109, 227.111, 227.117, 227.119, and
227.121.
Subpart B—Occupational Noise
Exposure for Railroad Operating
Employees.
§ 227.101
Scope and applicability.
(a) This subpart shall apply to the
noise-related working conditions of—
(1) Any person who regularly
performs service subject to the
provisions of the hours of service laws
governing ‘‘train employees’’ (see 49
U.S.C. 21101(5) and 21103), but, subject
to a railroad’s election in paragraph
(a)(3) of this section, does not apply to:
(i) Employees who move locomotives
only within the confines of locomotive
repair or servicing areas, as provided in
§§ 218.5 and 218.29(a) of this chapter, or
(ii) Employees who move a
locomotive or group of locomotives for
distances of less than 100 feet and this
incidental movement of a locomotive or
locomotives is for inspection or
maintenance purposes, or
(iii) Contractors who operate historic
equipment in occasional service,
provided that the contractors have been
provided with hearing protectors and,
where necessary, are required to use the
hearing protectors while operating the
historic equipment;
(2) Any direct supervisor of the
persons described in paragraph (a)(1) of
this section whose duties require
frequent work in the locomotive cab;
and
(3) At the election of the railroad, any
other person (including a person
excluded by paragraph (a)(1) of this
section) whose duties require frequent
work in the locomotive cab and whose
primary noise exposure is reasonably
expected to be experienced in the cab,
if the position occupied by such person
is designated in writing by the railroad,
as required by § 227.121(d).
E:\FR\FM\27OCR2.SGM
27OCR2
63126
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
(b) Occupational noise exposure and
hearing conservation for employees not
covered by this subpart is governed by
the appropriate occupational noise
exposure regulation of the U.S.
Department of Labor, Occupational
Safety and Health Administration
located at 29 CFR 1910.95.
rmajette on PROD1PC67 with RULES2
§ 227.103
Noise monitoring program.
(a) Schedule. A railroad shall develop
and implement a noise monitoring
program to determine whether any
employee covered by the scope of this
subpart may be exposed to noise that
may equal or exceed an 8-hour TWA of
85 dB(A), in accordance with the
following schedule:
(1) Class 1, passenger, and commuter
railroads no later than February 26,
2008.
(2) Railroads with 400,000 or more
annual employee hours that are not
Class 1, passenger, or commuter
railroads no later than August 26, 2008.
(3) Railroads with fewer than 400,000
annual employee hours no later than
August 26, 2009.
(b) Sampling strategy.
(1) In its monitoring program, the
railroad shall use a sampling strategy
that is designed to identify employees
for inclusion in the hearing
conservation program and to enable the
proper selection of hearing protection.
(2) Where circumstances such as high
worker mobility, significant variations
in sound level, or a significant
component of impulse noise make area
monitoring generally inappropriate, the
railroad shall use representative
personal sampling to comply with the
monitoring requirements of this section,
unless the railroad can show that area
sampling produces equivalent results.
(c) Noise measurements.
(1) All continuous, intermittent, and
impulse sound levels from 80 decibels
to 140 decibels shall be integrated into
the noise measurements.
(2) Noise measurements shall be made
under typical operating conditions
using:
(i) A sound level meter conforming, at
a minimum, to the requirements of
ANSI S1.4–1983 (Reaffirmed 2001)
(incorporated by reference, see
§ 227.103(h)), Type 2, and set to an Aweighted SLOW response;
(ii) An integrated sound level meter
conforming, at a minimum, to the
requirements of ANSI S1.43–1997
(Reaffirmed 2002) (incorporated by
reference, see § 227.103(h)), Type 2, and
set to an A-weighted slow response ; or
(iii) A noise dosimeter conforming, at
a minimum, to the requirements of
ANSI S1.25–1991 (Reaffirmed 2002)
(incorporated by reference, see
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
§ 227.103(h)) and set to an A-weighted
SLOW response.
(3) All instruments used to measure
employee noise exposure shall be
calibrated to ensure accurate
measurements.
(d) The railroad shall repeat noise
monitoring, consistent with the
requirements of this section, whenever
a change in operations, process,
equipment, or controls increases noise
exposures to the extent that:
(1) Additional employees may be
exposed at or above the action level; or
(2) The attenuation provided by
hearing protectors being used by
employees may be inadequate to meet
the requirements of § 227.103.
(e) In administering the monitoring
program, the railroad shall take into
consideration the identification of work
environments where the use of hearing
protectors may be omitted.
(f) Observation of monitoring. The
railroad shall provide affected
employees or their representatives with
an opportunity to observe any noise
dose measurements conducted pursuant
to this section.
(g) Reporting of monitoring results.
(1) The railroad shall notify each
monitored employee of the results of the
monitoring.
(2) The railroad shall post the
monitoring results at the appropriate
crew origination point for a minimum of
30 days. The posting should include
sufficient information to permit other
crews to understand the meaning of the
results in the context of the operations
monitored.
(h) Incorporation by reference. The
materials listed in this section are
incorporated by reference in the
corresponding sections noted. These
incorporations by reference were
approved by the Director of the Federal
Register in accordance with 5 U.S.C.
552(a) and 1 CFR part 51. You may
obtain a copy of the incorporated
materials from the American National
Standards Institute at 1819 L Street,
NW., Washington, DC 20036 or https://
www.ansi.org. You may inspect a copy
of the incorporated standards at the
Federal Railroad Administration, Docket
Room, 1120 Vermont Ave., NW., Suite
700, Washington, DC 20005, or at the
National Archives and Records
Administration (NARA). For
information on the availability of this
material at NARA, call 202–741–6030,
or go to https://www.archives.gov/
federal_register/
code_of_federal_regulations/
ibr_locations.html.
(1) ANSI S1.4–1983 (Reaffirmed
2001), Specification for Sound Level
PO 00000
Frm 00062
Fmt 4701
Sfmt 4700
Meters, incorporation by reference (IBR)
approved for § 227.103(c)(2)(i).
(2) ANSI S1.43–1997 (Reaffirmed
2002), Specifications for IntegratingAveraging Sound Level Meters, IBR
approved for § 227.103(c)(2)(ii).
(3) ANSI S1.25–1991 (Reaffirmed
2002), Specification for Personal Noise
Dosimeters, IBR approved for
§ 227.103(c)(2)(iii).
§ 227.105
Protection of employees.
(a) A railroad shall provide
appropriate protection for its employees
who are exposed to noise, as measured
according to § 227.103, that exceeds the
limits specified in appendix A of this
part.
(b) In assessing whether exposures
exceed 115 dB(A), as set forth in
paragraph (a) of this section and
appendix A to this part, the apparent
source of the noise exposures shall be
observed and documented and
measurement artifacts may be removed.
(c) Except as set forth in paragraph (d)
of this section, exposure to continuous
noise shall not exceed 115dB(A).
(d) Exposures to continuous noise
greater than 115 dB(A) and equal to or
less than 120 dB(A) are permissible,
provided that the total daily duration
does not exceed 5 seconds.
§ 227.107
Hearing conservation program.
(a) Consistent with the requirements
of the noise monitoring program
required by § 227.103, the railroad shall
administer a continuing, effective
hearing conservation program, as set
forth in §§ 227.109 through 227.121, for
all employees exposed to noise at or
above the action level.
(b) For purposes of the hearing
conservation program, employee noise
exposure shall be computed in
accordance with the tables in appendix
A of this part, and without regard to any
attenuation provided by the use of
hearing protectors.
§ 227.109
Audiometric testing program.
(a) Each railroad shall establish and
maintain an audiometric testing
program as set forth in this section and
include employees who are required to
be included in a hearing conservation
program pursuant to § 227.107.
(b) Cost. The audiometric tests shall
be provided at no cost to employees.
(c) Tests. Audiometric tests shall be
performed by:
(1) An audiologist, otolaryngologist,
or other physician who has experience
and expertise in hearing and hearing
loss; or
(2) A qualified technician.
(d) [Reserved]
(e) Baseline audiogram. This
paragraph (e) applies to employees who
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
are required by § 227.107 to be included
in a hearing conservation program.
(1) New employees.
(i) Except as provided in paragraph
(e)(1)(ii), for employees hired after
February 26, 2007, the railroad shall
establish a valid baseline audiogram
within 6 months of the new employee’s
first tour of duty.
(ii) Where mobile test vans are used
to meet the requirement in paragraph
(e)(1)(i), the railroad shall establish a
valid baseline audiogram within one
year of the new employee’s first tour of
duty.
(2) Existing employees.
(i) For all employees without a
baseline audiogram as of February 26,
2007, Class 1, passenger, and commuter
railroads, and railroads with 400,000 or
more annual employee hours shall
establish a valid baseline audiogram by
February 26, 2009; and railroads with
less than 400,000 annual employee
hours shall establish a valid baseline
audiogram by February 26, 2010.
(ii) If an employee has had a baseline
audiogram as of February 26, 2007, and
it was obtained under conditions that
satisfy the requirements found in 29
CFR 1910.95(h), the railroad must use
that baseline audiogram.
(iii) If the employee has had a
baseline audiogram as of February 26,
2007, and it was obtained under
conditions that satisfy the requirements
in 29 CFR 1910.95(h)(1), but not the
requirements found in 29 CFR
1910.95(h)(2) through (5), the railroad
may elect to use that baseline audiogram
provided that the Professional
Supervisor of the Audiometric
Monitoring Program makes a reasonable
determination that the baseline
audiogram is valid and is clinically
consistent with other materials in the
employee’s medical file.
(3) Testing to establish a baseline
audiogram shall be preceded by at least
14 hours without exposure to
occupational noise in excess of the
action level. Hearing protectors may be
used as a substitute for the requirement
that baseline audiograms be preceded by
14 hours without exposure to
occupational noise.
(4) The railroad shall notify its
employees of the need to avoid high
levels of non-occupational noise
exposure during the 14-hour period
immediately preceding the audiometric
examination.
(f) Periodic audiogram.
(1) The railroad shall offer an
audiometric test to each employee
included in the hearing conservation
program at least once each calendar
year. The interval between the date
offered to any employee for a test in a
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
calendar year and the date offered in the
subsequent calendar year shall be no
more than 450 days and no less than
280 days.
(2) The railroad shall require each
employee included in the hearing
conservation program to take an
audiometric test at least once every 1095
days.
(g) Evaluation of audiogram.
(1) Each employee’s periodic
audiogram shall be compared to that
employee’s baseline audiogram to
determine if the audiogram is valid and
to determine if a standard threshold
shift has occurred. This comparison
may be done by a qualified technician.
(2) If the periodic audiogram
demonstrates a standard threshold shift,
a railroad may obtain a retest within 90
days. The railroad may consider the
results of the retest as the periodic
audiogram.
(3) The audiologist, otolaryngologist,
or physician shall review problem
audiograms and shall determine
whether there is a need for further
evaluation. A railroad shall provide all
of the following information to the
person performing this review:
(i) The baseline audiogram of the
employee to be evaluated;
(ii) The most recent audiogram of the
employee to be evaluated;
(iii) Measurements of background
sound pressure levels in the
audiometric test room as required in
appendix D of this part: Audiometric
Test Rooms; and
(iv) Records of audiometer
calibrations required by § 227.111.
(h) Follow-up procedures.
(1) If a comparison of the periodic
audiogram to the baseline audiogram
indicates that a standard threshold shift
has occurred, the railroad shall inform
the employee in writing within 30 days
of the determination.
(2) Unless a physician or audiologist
determines that the standard threshold
shift is not work-related or aggravated
by occupational noise exposure, the
railroad shall ensure that the following
steps are taken:
(i) Employees not using hearing
protectors shall be fitted with hearing
protectors, shall be trained in their use
and care, and shall be required to use
them.
(ii) Employees already provided with
hearing protectors shall be refitted, shall
be retrained in the use of hearing
protectors offering greater attenuation, if
necessary, and shall be required to use
them.
(iii) If subsequent audiometric testing
is necessary or if the railroad suspects
that a medical pathology of the ear is
caused or aggravated by the wearing of
PO 00000
Frm 00063
Fmt 4701
Sfmt 4700
63127
hearing protectors, the railroad shall
refer the employee for a clinical
audiological evaluation or an otological
examination.
(iv) If the railroad suspects that a
medical pathology of the ear unrelated
to the use of hearing protectors is
present, the railroad shall inform the
employee of the need for an otological
examination.
(3) If subsequent audiometric testing
of an employee, whose exposure to
noise is less than an 8-hour TWA of 90
dB, indicates that a standard threshold
shift is not persistent, the railroad shall
inform the employee of the new
audiometric interpretation and may
discontinue the required use of hearing
protectors for that employee.
(i) Revised baseline. A railroad shall
use the following methods for revising
baseline audiograms:
(1) Periodic audiograms from
audiometric tests conducted through
February 26, 2009, may be substituted
for the baseline measurement by the
Professional Supervisor of the
Audiometric Monitoring Program who
is evaluating the audiogram if:
(i) The standard threshold shift
revealed by the audiogram is persistent;
or
(ii) The hearing threshold shown in
the periodic audiogram indicates
significant improvement over the
baseline audiogram.
(2) Baseline audiograms from
audiometric tests conducted after
February 26, 2009, shall be revised in
accordance with the method specified
in appendix C of this part: Audiometric
Baseline Revision.
(j) Standard threshold shift. In
determining whether a standard
threshold shift has occurred, allowance
may be made for the contribution of
aging (presbycusis) to the change in
hearing level by correcting the annual
audiogram according to the procedure
described in appendix F of this part:
Calculation and Application of Age
Correction to Audiograms.
§ 227.111
Audiometric test requirements.
(a) Audiometric tests shall be pure
tone, air conduction, hearing threshold
examinations, with test frequencies
including 500, 1000, 2000, 3000, 4000,
6000, and 8000 Hz. Tests at each
frequency shall be taken separately for
each ear.
(b) Audiometric tests shall be
conducted with audiometers (including
microprocessor audiometers) that meet
the specifications of and are maintained
and used in accordance with ANSI
S3.6–2004 ‘‘Specification for
Audiometers.’’ The Director of the
Federal Register approves the
E:\FR\FM\27OCR2.SGM
27OCR2
rmajette on PROD1PC67 with RULES2
63128
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
incorporation by reference of this
standard in accordance with 5 U.S.C.
552(a) and 1 CFR part 51. You may
obtain a copy of the incorporated
standard from the American National
Standards Institute at 1819 L Street,
NW., Washington, DC 20036 or https://
www.ansi.org. You may inspect a copy
of the incorporated standard at the
Federal Railroad Administration, Docket
Room, 1120 Vermont Ave., NW., Suite
700, Washington, DC 20005, or at the
National Archives and Records
Administration (NARA). For more
information on the availability of this
material at NARA, call 202–741–6030,
or go to https://www.archives.gov/
federal_register/
code_of_federal_regulations/
ibr_locations.html.
(1) Pulsed-tone audiometers should be
used with the following on and off
times: F–J and J–K shall each have
values of 225 ± 35 milliseconds (ms).
(2) Use of insert earphones shall be
consistent with the requirements listed
in appendix E of this part: Use of Insert
Earphones for Audiometric Testing.
(c) Audiometric examinations shall be
administered in a room meeting the
requirements listed in appendix D of
this part: Audiometric Test Rooms.
(d) Audiometer calibration.
(1) The functional operation of the
audiometer shall be checked before each
day’s use by testing a person with
known, stable hearing thresholds or by
appropriate calibration device, and by
listening to the audiometer’s output to
make sure that the output is free from
distorted or unwanted sounds.
Deviations of 10 decibels or greater
require an acoustic calibration.
(2) Audiometer calibration shall be
checked acoustically at least annually
according to the procedures described
in ANSI S3.6–2004. Frequencies below
500 Hz and above 8000 Hz may be
omitted from this check. The
audiometer must meet the sound
pressure accuracy requirements of
section 7.2 of ANSI S3.6–2004 of 3 dB
at any test frequency between 500 and
5000 Hz and 5 dB at any test frequency
6000 Hz and higher for the specific type
of transducer used. For air-conduction
supra-aural earphones, the
specifications in Table 6 of ANSI S3.6–
2004 shall apply. For air-conduction
insert earphones, the specifications in
Table 7 of ANSI S3.6–2004 shall apply.
Audiometers that do not meet these
requirements must undergo an
exhaustive calibration.
(3) Exhaustive Calibration. An
exhaustive calibration shall be
performed in accordance with ANSI
S3.6–2004, according to the following
schedule:
VerDate Aug<31>2005
16:17 Oct 26, 2006
Jkt 211001
(i) At least once every two years on
audiometers not used in mobile test
vans. Test frequencies below 500 Hz
and above 6000 Hz may be omitted from
this calibration.
(ii) At least annually on audiometers
used in mobile test vans.
§ 227.113
Noise operational controls.
(a) Railroads may use noise
operational controls at any sound level
to reduce exposures to levels below
those required by Table A–1 of
appendix A of this part.
(b) Railroads are encouraged to use
noise operational controls when
employees are exposed to sound
exceeding an 8-hour TWA of 90 dB(A).
§ 227.115
Hearing protectors.
(a) General requirements for hearing
protectors.
(1) The railroad shall provide hearing
protectors to employees at no cost to the
employee.
(2) The railroad shall replace hearing
protectors as necessary.
(3) When offering hearing protectors,
a railroad shall consider an employee’s
ability to understand and respond to
voice radio communications and
audible warnings.
(4) The railroad shall give employees
the opportunity to select their hearing
protectors from a variety of suitable
hearing protectors. The selection shall
include devices with a range of
attenuation levels.
(5) The railroad shall provide training
in the use and care of all hearing
protectors provided to employees.
(6) The railroad shall ensure proper
initial fitting and supervise the correct
use of all hearing protectors.
(b) Availability of hearing protectors.
A railroad shall make hearing protectors
available to all employees exposed to
sound levels that meet or exceed the
action level.
(c) Required use at action level. A
railroad shall require the use of hearing
protectors when an employee is exposed
to sound levels that meet or exceed the
action level, and the employee has:
(1) Not yet had a baseline audiogram
established pursuant to § 227.109; or
(2) Experienced a standard threshold
shift and is required to use hearing
protectors under § 227.109(h).
(d) Required use for TWA of 90 dB(A).
The railroad shall require the use of
hearing protectors when an employee is
exposed to sound levels equivalent to an
8-hour TWA of 90 dB(A) or greater. The
hearing protectors should be used to
reduce sound levels to within those
levels required by appendix A of this
part.
PO 00000
Frm 00064
Fmt 4701
Sfmt 4700
§ 227.117
Hearing protector attenuation.
(a) A railroad shall evaluate hearing
protector attenuation for the specific
noise environments in which the
protector will be used. The railroad
shall use one of the evaluation methods
described in appendix B of this part;
‘‘Methods for Estimating the Adequacy
of Hearing Protector Attenuation.’’
(b) Hearing protectors shall attenuate
employee exposure to an 8-hour TWA of
90 decibels or lower, as required by
§ 227.115.
(c) For employees who have
experienced a standard threshold shift,
hearing protectors must attenuate
employee exposure to an 8-hour timeweighted average of 85 decibels or
lower.
(d) The adequacy of hearing protector
attenuation shall be re-evaluated
whenever employee noise exposures
increase to the extent that the hearing
protectors provided may no longer
provide adequate attenuation. A railroad
shall provide more effective hearing
protectors where necessary.
§ 227.119
Training program.
(a) The railroad shall institute an
occupational noise and hearing
conservation training program for all
employees included in the hearing
conservation program.
(1) The railroad shall offer the training
program to each employee included in
the hearing conservation program at
least once each calendar year. The
interval between the date offered to any
employee for the training in a calendar
year and the date offered in the
subsequent calendar year shall be no
more than 450 days and no less than
280 days.
(2) The railroad shall require each
employee included in the hearing
conservation program to complete the
training at least once every 1095 days.
(b) The railroad shall provide the
training required by paragraph (a) of this
section in accordance with the
following:
(1) For employees hired after February
26, 2007, within six months of the
employee’s first tour of duty in a
position identified within the scope of
this part.
(2) For employees hired on or before
February 26, 2007, by Class 1,
passenger, and commuter railroads, and
railroads with 400,000 or more annual
employee hours, by no later than
February 26, 2009;
(3) For employees hired on or before
February 26, 2007, by railroads with
fewer than 400,000 annual employee
hours, by no later than February 26,
2010.
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
(c) The training program shall include
and the training materials shall reflect,
at a minimum, information on all of the
following:
(1) The effects of noise on hearing;
(2) The purpose of hearing protectors;
(3) The advantages, disadvantages,
and attenuation of various types of
hearing protectors;
(4) Instructions on selection, fitting,
use, and care of hearing protectors;
(5) The purpose of audiometric
testing, and an explanation of the test
procedures;
(6) An explanation of noise
operational controls, where used;
(7) General information concerning
the expected range of workplace noise
exposure levels associated with major
categories of railroad equipment and
operations (e.g., switching and road
assignments, hump yards near retarders,
etc.) and appropriate reference to
requirements of the railroad concerning
use of hearing protectors;
(8) The purpose of noise monitoring
and a general description of monitoring
procedures;
(9) The availability of a copy of this
part, an explanation of the requirements
of this part as they affect the
responsibilities of employees, and
employees’ rights to access records
under this part;
(10) How to determine what can
trigger an excessive noise report,
pursuant to § 229.121(b); and
(11) How to file an excessive noise
report, pursuant to § 229.121(b).
rmajette on PROD1PC67 with RULES2
§ 227.121
Recordkeeping.
(a) General requirements.
(1) Availability of records. Each
railroad required to maintain and retain
records under this part shall:
(i) Make all records available for
inspection and copying/photocopying to
representatives of the FRA, upon
request;
(ii) Make an employee’s records
available for inspection and copying/
photocopying to that employee, former
employee, or such person’s
representative upon written
authorization by such employee;
(iii) Make exposure measurement
records for a given run or yard available
for inspection and copying/
photocopying to all employees who
were present in the locomotive cab
during the given run and/or who work
in the same yard; and
(iv) Make exposure measurement
records for specific locations available
to regional or national labor
representatives, upon request. These
reports shall not contain identifying
information of an employee unless an
employee authorizes the release of such
information in writing.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
(2) Electronic records. All records
required by this part may be kept in
electronic form by the railroad. A
railroad may maintain and transfer
records through electronic transmission,
storage, and retrieval provided that:
(i) The electronic system be designed
so that the integrity of each record is
maintained through appropriate levels
of security such as recognition of an
electronic signature, or other means,
which uniquely identify the initiating
person as the author of that record. No
two persons shall have the same
electronic identity;
(ii) The electronic system shall ensure
that each record cannot be modified in
any way, or replaced, once the record is
transmitted and stored;
(iii) Any amendment to a record shall
be electronically stored apart from the
record which it amends. Each
amendment to a record shall be
uniquely identified as to the person
making the amendment;
(iv) The electronic system shall
provide for the maintenance of records
as originally submitted without
corruption or loss of data; and
(v) Paper copies of electronic records
and amendments to those records, that
may be necessary to document
compliance with this part shall be made
available for inspection and copying/
photocopying by representatives of the
FRA.
(3) Transfer of records. If a railroad
ceases to do business, it shall transfer to
the successor employer all records
required to be maintained under this
subpart, and the successor employer
shall retain them for the remainder of
the period prescribed in this part.
(b) Exposure measurements records.
The railroad shall:
(1) Maintain an accurate record of all
employee exposure measurements
required by § 227.103; and
(2) Retain these records for the
duration of the covered employee’s
employment plus thirty years.
(c) Audiometric test records. The
railroad shall:
(1) Maintain employee audiometric
test records required by § 227.109,
including:
(i) The name and job classification of
the employee;
(ii) The date of the audiogram;
(iii) The examiner’s name;
(iv) The date of the last acoustic or
exhaustive calibration of the
audiometer;
(v) Accurate records of the
measurements of the background sound
pressure levels in audiometric test
rooms;
(vi) The model and serial number of
the audiometer used for testing; and
PO 00000
Frm 00065
Fmt 4701
Sfmt 4700
63129
(2) Retain the records required by
§ 227.107 for the duration of the covered
employee’s employment plus thirty
years.
(d) Positions and persons designated
records. The railroad shall:
(1) Maintain a record of all positions
or persons or both designated by the
railroad to be placed in a Hearing
Conservation Program pursuant to
§ 227.107; and
(2) Retain these records for the
duration of the designation.
(e) Training program materials
records. The railroad shall:
(1) Maintain copies of all training
program materials used to comply with
§ 227.119(c) and a record of employees
trained; and
(2) Retain these copies and records for
three years.
(f) Standard threshold shift records.
The railroad shall:
(1) Maintain a record of all employees
who have been found to have
experienced a standard threshold shift
within the prior calendar year and
include all of the following information
for each employee on the record:
(i) Date of the employee’s baseline
audiogram;
(ii) Date of the employee’s most recent
audiogram;
(iii) Date of the establishment of a
standard threshold shift;
(iv) The employee’s job code; and
(v) An indication of how many
standard threshold shifts the employee
has experienced in the past, if any; and
(2) Retain these records for five years.
Appendix A to Part 227—Noise
Exposure Computation
This appendix is mandatory.
I. Computation of Employee Noise Exposure
A. Noise dose is computed using Table A–
1 as follows:
1. When the sound level, L, is constant
over the entire work day, the noise dose, D,
in percent, is given by: D = 100 C/T, where
C is the total length of the work day, in
hours, and T is the duration permitted
corresponding to the measured sound level,
L, as given in Table A–1.
2. When the work day noise exposure is
composed of two or more periods of noise at
different levels, the total noise dose over the
work day is given by:
D = 100 (C1/T1 + C2/T2 + . . . + Cn/Tn),
where Cn indicates the total time of exposure
at a specific noise level, and Tn indicates the
duration permitted for that level as given by
Table A–1.
B. The eight-hour TWA in dB may be
computed from the dose, in percent, by
means of the formula: TWA = 16.61 log10 (D/
100) + 90. For an eight-hour work day with
the noise level constant over the entire day,
the TWA is equal to the measured sound
level.
E:\FR\FM\27OCR2.SGM
27OCR2
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
C. Exposure to impulsive or impact noise
should not exceed 140 dB peak sound
pressure level.
D. Any time that an employee spends
deadheading shall be included in the
calculation of the noise dose.
E. A table relating dose and TWA is given
in Section II of this Appendix.
TABLE
A–11
A-weighted sound level, L
(decibel)
rmajette on PROD1PC67 with RULES2
80 ............................................
81 ............................................
82 ............................................
83 ............................................
84 ............................................
85 ............................................
86 ............................................
87 ............................................
88 ............................................
89 ............................................
90 ............................................
91 ............................................
92 ............................................
93 ............................................
94 ............................................
95 ............................................
96 ............................................
97 ............................................
98 ............................................
99 ............................................
100 ..........................................
101 ..........................................
102 ..........................................
103 ..........................................
104 ..........................................
105 ..........................................
106 ..........................................
107 ..........................................
108 ..........................................
109 ..........................................
110 ..........................................
111 ..........................................
112 ..........................................
113 ..........................................
114 ..........................................
115 ..........................................
116 ..........................................
117 ..........................................
118 ..........................................
119 ..........................................
120 ..........................................
121 ..........................................
122 ..........................................
123 ..........................................
124 ..........................................
125 ..........................................
126 ..........................................
127 ..........................................
128 ..........................................
129 ..........................................
130 ..........................................
140 ..........................................
Duration
permitted
T
(hour)
32
27.9
24.3
21.1
18.4
16
13.9
12.1
10.6
9.2
8
7.0
6.1
5.3
4.6
4
3.5
3.0
2.6
2.3
2
1.7
1.5
1.3
1.1
1
0.87
0.76
0.66
0.57
0.5
0.44
0.38
0.33
0.29
0.25
0.22
0.19
0.16
0.14
0.125
0.11
0.095
0.082
0.072
0.063
0.054
0.047
0.041
0.036
0.031
0.078
1 Numbers above 115 dB(A) are italicized to
indicate that they are noise levels that are not
permitted. The italicized numbers are included
only because they are sometimes necessary
for the computation of noise dose.
In the above table the duration permitted,
T, is computed by
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
T=
8
2
( L − 90 )/5
where L is the measured A-weighted sound
level.
II. Conversion Between ‘‘Dose’’ and ‘‘8-Hour
Time-Weighted Average’’ Sound Level
A. Compliance with subpart B of part 227
is determined by the amount of exposure to
noise in the workplace. The amount of such
exposure is usually measured with a
dosimeter which gives a readout in terms of
‘‘dose.’’ In order to better understand the
requirements of the regulation, dosimeter
readings can be converted to an ‘‘8-hour
TWA.’’
B. In order to convert the reading of a
dosimeter into TWA, see Table A–2, below.
This table applies to dosimeters that are set
by the manufacturer to calculate dose or
percent exposure according to the
relationships in Table A–1. So, for example,
a dose of 91 percent over an eight-hour day
results in a TWA of 89.3 dB, and a dose of
50 percent corresponds to a TWA of 85 dB.
C. If the dose as read on the dosimeter is
less than or greater than the values found in
Table A–2, the TWA may be calculated by
using the formula: TWA = 16.61 log10 (D/
100) + 90 where TWA = 8-hour timeweighted average sound level and D =
accumulated dose in percent exposure.
TABLE A–2.—CONVERSION FROM
‘‘PERCENT NOISE EXPOSURE’’ OR
‘‘DOSE’’ TO ‘‘8-HOUR TIME-WEIGHTED AVERAGE SOUND LEVEL’’ (TWA)
Dose or percent noise
exposure
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
PO 00000
TWA
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
....................................................
Frm 00066
Fmt 4701
Sfmt 4700
73.4
76.3
78.4
80.0
81.3
82.4
83.4
84.2
85.0
85.7
86.3
86.9
87.4
87.9
88.4
88.5
88.6
88.7
88.7
88.8
88.9
89.0
89.1
89.2
89.2
89.3
89.4
89.5
89.6
89.6
89.7
89.8
89.9
TABLE A–2.—CONVERSION FROM
‘‘PERCENT NOISE EXPOSURE’’ OR
‘‘DOSE’’ TO ‘‘8-HOUR TIME-WEIGHTED
AVERAGE
SOUND
LEVEL’’
(TWA)—Continued
Dose or percent noise
exposure
99 ....................................................
100 ..................................................
101 ..................................................
102 ..................................................
103 ..................................................
104 ..................................................
105 ..................................................
106 ..................................................
107 ..................................................
108 ..................................................
109 ..................................................
110 ..................................................
111 ..................................................
112 ..................................................
113 ..................................................
114 ..................................................
115 ..................................................
116 ..................................................
117 ..................................................
118 ..................................................
119 ..................................................
120 ..................................................
125 ..................................................
130 ..................................................
135 ..................................................
140 ..................................................
145 ..................................................
150 ..................................................
155 ..................................................
160 ..................................................
165 ..................................................
170 ..................................................
175 ..................................................
180 ..................................................
185 ..................................................
190 ..................................................
195 ..................................................
200 ..................................................
210 ..................................................
220 ..................................................
230 ..................................................
240 ..................................................
250 ..................................................
260 ..................................................
270 ..................................................
280 ..................................................
290 ..................................................
300 ..................................................
310 ..................................................
320 ..................................................
330 ..................................................
340 ..................................................
350 ..................................................
360 ..................................................
370 ..................................................
380 ..................................................
390 ..................................................
400 ..................................................
410 ..................................................
420 ..................................................
430 ..................................................
440 ..................................................
450 ..................................................
460 ..................................................
470 ..................................................
480 ..................................................
E:\FR\FM\27OCR2.SGM
27OCR2
TWA
89.9
90.0
90.1
90.1
90.2
90.3
90.4
90.4
90.5
90.6
90.6
90.7
90.8
90.8
90.9
90.9
91.1
91.1
91.1
91.2
91.3
91.3
91.6
91.9
92.2
92.4
92.7
92.9
93.2
93.4
93.6
93.8
94.0
94.2
94.4
94.6
94.8
95.0
95.4
95.7
96.0
96.3
96.6
96.9
97.2
97.4
97.7
97.9
98.2
98.4
98.6
98.8
99.0
99.2
99.4
99.6
99.8
100.0
100.2
100.4
100.5
100.7
100.8
101.0
101.2
101.3
ER27OC06.004</MATH>
63130
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
TABLE A–2.—CONVERSION FROM
‘‘PERCENT NOISE EXPOSURE’’ OR
‘‘DOSE’’ TO ‘‘8-HOUR TIME-WEIGHTED
AVERAGE
SOUND
LEVEL’’
(TWA)—Continued
Dose or percent noise
exposure
490
500
510
520
530
540
550
560
570
580
590
600
610
620
630
640
650
660
670
680
690
700
710
720
730
740
750
760
770
780
790
800
810
820
830
840
850
860
870
880
890
900
910
920
930
940
950
960
970
980
990
999
TWA
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
..................................................
101.5
101.6
101.8
101.9
102.0
102.2
102.3
102.4
102.6
102.7
102.8
102.9
103.0
103.2
103.3
103.4
103.5
103.6
103.7
103.8
103.9
104.0
104.1
104.2
104.3
104.4
104.5
104.6
104.7
104.8
104.9
105.0
105.1
105.2
105.3
105.4
105.4
105.5
105.6
105.7
105.8
105.8
105.9
106.0
106.1
106.2
106.2
106.3
106.4
106.5
106.5
106.6
rmajette on PROD1PC67 with RULES2
Appendix B to Part 227—Methods for
Estimating the Adequacy of Hearing
Protector Attenuation
This appendix is mandatory.
Employers must select one of the following
three methods by which to estimate the
adequacy of hearing protector attenuation.
I. Derate by Type
Derate the hearing protector attenuation by
type using the following requirements:
A. Subtract 7 dB from the published Noise
Reduction Rating (NRR).
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
B. Reduce the resulting amount by:
1. 20% for earmuffs,
2. 40% for form-able earplugs, or
3. 60% for all other earplugs.
C. Subtract the remaining amount from the
A-weighted TWA. You will have the
estimated A-weighted TWA for that hearing
protector.
II. Method B From ANSI S12.6–1997
(Reaffirmed 2002)
Use Method B, which is found in ANSI
S12.6–1997 (Reaffirmed 2002) ‘‘Methods for
Measuring the Real-Ear Attenuation of
Hearing Protectors.’’ The Director of the
Federal Register approves the incorporation
by reference of this standard in accordance
with 5 U.S.C. 552(a) and 1 CFR part 51. You
may obtain a copy of the incorporated
standard from the American National
Standards Institute at 1819 L Street, NW.,
Washington, DC 20036, or https://
www.ansi.org. You may inspect a copy of the
incorporated standard at the Federal Railroad
Administration, Docket Room, 1120 Vermont
Ave., Suite 700, Washington, DC 20005, or at
the National Archives and Records
Administration (NARA). For information on
the availability of this material at NARA, call
202–741–6030, or go to https://
www.archives.gov/federal_register/code_of_
federal_regulations/ibr_locations.html.
III. Objective Measurement
Use actual measurements of the level of
noise exposure (as an A-weighted SLOW
response dose) inside the hearing protector
when the employee wears the hearing
protector in the actual work environment.
Appendix C to Part 227—Audiometric
Baseline Revision
This appendix is mandatory beginning on
February 26, 2009.
I. General
A. A professional reviewer (audiologist,
otolaryngologist, or physician) shall use these
procedures when revising baseline
audiograms.
B. Although these procedures can be
programmed by a computer to identify
records for potential revision, the final
decision for revision rests with a human
being. Because the goal of the guidelines is
to foster consistency among different
professional reviewers, human override of
the guidelines must be justified by specific
concrete reasons.
C. These procedures do not apply to: The
identification of standard threshold shifts
(STS) other than an FRA STS 1 or to the
calculation of the 25-dB average shifts that
are reportable on the Form FRA F 6180.55a.
D. Initially, the baseline is the latest
audiogram obtained before entry into the
hearing conservation program. If no
appropriate pre-entry audiogram exists, the
baseline is the first audiogram obtained after
entry into the hearing conservation program.
Each subsequent audiogram is reviewed to
1 OSHA and FRA use the same definition for
Standard Threshold Shift (STS). FRA’s definition is
located in § 227.5. OSHA’s definition is located in
29 CFR 1910.95(g)(10)(i).
PO 00000
Frm 00067
Fmt 4701
Sfmt 4700
63131
detect improvement in the average (average
of thresholds at 2, 3, and 4 kHz) and to detect
an FRA STS. The two ears are examined
separately and independently for
improvement and for worsening. If one ear
meets the criteria for revision of baseline,
then the baseline is revised for that ear only.
Therefore, if the two ears show different
hearing trends, the baseline for the left ear
may be from one test date, while the baseline
for the right ear may be from a different test
date.
E. Age corrections do not apply in
considering revisions for improvement (Rule
1). The FRA-allowed age corrections from
appendix F of Part 227 2 may be used, if
desired, before considering revision for
persistent STS. Rule 2 operates in the same
way, whether age corrections are used or not.
II. Rule 1: Revision for Persistent
Improvement
If the average of the thresholds for 2, 3, and
4 kHz for either ear shows an improvement
of 5 dB or more from the baseline value, and
the improvement is present on one test and
persistent on the next test, then the record
should be identified for review by the
audiologist, otolaryngologist, or physician for
potential revision of the baseline for
persistent improvement. The baseline for that
ear should be revised to the test which shows
the lower (more sensitive) value for the
average of thresholds at 2, 3, and 4 kHz
unless the audiologist, otolaryngologist, or
physician determines and documents
specific reasons for not revising. If the values
of the three-frequency average are identical
for the two tests, then the earlier test becomes
the revised baseline.
III. Rule 2: Revision for Persistent Standard
Threshold Shift
A. If the average of thresholds for 2, 3, and
4 kHz for either ear shows a worsening of 10
dB or more from the baseline value, and the
STS persists on the next periodic test (or the
next test given at least 6 months later), then
the record should be identified for review by
the audiologist, otolaryngologist, or
physician for potential revision of the
baseline for persistent worsening. Unless the
audiologist, otolaryngologist, or physician
determines and documents specific reasons
for not revising, the baseline for that ear
should be revised to the test which shows the
lower (more sensitive) value for the average
of thresholds at 2, 3, and 4 kHz. If both tests
show the same numerical value for the
average of 2, 3, and 4 kHz, then the
audiologist, otolaryngologist, or physician
should revise the baseline to the earlier of the
two tests, unless the later test shows better
(more sensitive) thresholds for other test
frequencies.
B. Following an STS, a retest within 90
days of the periodic test may be substituted
for the periodic test if the retest shows better
(more sensitive) results for the average
threshold at 2, 3, and 4 kHz.
C. If the retest is used in place of the
periodic test, then the periodic test is
retained in the record, but it is marked in
2 FRA and OSHA use the same age-correction
provisions. FRA’s is found in appendix F of part
227 and OSHA’s in appendix F of 29 CFR 1910.95.
E:\FR\FM\27OCR2.SGM
27OCR2
63132
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
such a way that it is no longer considered in
baseline revision evaluations. If a retest
within 90 days of periodic test confirms an
FRA STS shown on the periodic test, the
baseline will not be revised at that point
because the required six-month interval
between tests showing STS persistence has
not been met. The purpose of the six-month
requirement is to prevent premature baseline
revision when STS is the result of temporary
medical conditions affecting hearing.
D. Although a special retest after six
months could be given, if desired, to assess
whether the STS is persistent, in most cases,
the next annual audiogram would be used to
evaluate persistence of the STS.
Appendix D to Part 227—Audiometric
Test Rooms
This appendix is mandatory.
A. Rooms used for audiometric testing
shall not have background sound pressure
levels exceeding those in Table D–1 when
measured by equipment conforming at least
to the Type 2 requirements of ANSI S1.4–
1983 (Reaffirmed 2001) and to the Class 2
requirements of ANSI S1.11–2004,
‘‘Specification for Octave-Band and
Fractional-Octave-Band Analog and Digital
Filters.’’
B. The Director of the Federal Register
approves the incorporation by reference of
ANSI S1.4–1983 (Reaffirmed 2001) and
S.1.11–2004 in this section in accordance
with 5 U.S.C. 552(a) and 1 CFR part 51. You
may obtain a copy of the incorporated
standard from the American National
Standards Institute at 1819 L Street, NW.,
Washington, DC 20036 or https://
www.ansi.org. You may inspect a copy of the
incorporated standard at the Federal Railroad
Administration, Docket Room, 1120 Vermont
Ave., NW., Suite 700, Washington, DC 20005,
or at the National Archives and Records
Administration (NARA). For information on
the availability of this material at NARA, call
202–741–6030, or go to https://
www.archives.gov/federal_register/
code_of_federal_regulations/
ibr_locations.html.
TABLE D–1.—MAXIMUM ALLOWABLE OCTAVE-BAND SOUND PRESSURE LEVELS FOR AUDIOMETRIC TEST ROOMS
Octave-band center frequency (Hz)
500
Sound pressure levels—supra-aural earphones ...............................................
Sound pressure levels—insert earphones .........................................................
Appendix E to Part 227—Use of Insert
Earphones for Audiometric Testing
This appendix is mandatory.
Section 227.111(d) allows railroads to use
insert earphones for audiometric testing.
Railroads are not required to use insert
earphones, however, where they elect to use
insert earphones, they must comply with the
requirements of this appendix.
I. Acceptable Fit
A. The audiologist, otolaryngologist, or
other physician responsible for conducting
the audiometric testing, shall identify ear
canals that prevent achievement of an
acceptable fit with insert earphones, or shall
assure that any technician under his/her
authority who conducts audiometric testing
with insert earphones has the ability to
identify such ear canals.
B. Technicians who conduct audiometric
tests must be trained to insert the earphones
correctly into the ear canals of test subjects
and to recognize conditions where ear canal
size prevents achievement of an acceptable
insertion depth (fit).
C. Insert earphones shall not be used for
audiometric testing of employees with ear
canal sizes that prevent achievement of an
acceptable insertion depth (fit).
rmajette on PROD1PC67 with RULES2
II. Proper Use
The manufacturer’s guidelines for proper
use of insert earphones must be followed.
III. Audiometer Calibration
A. Audiometers used with insert earphones
must be calibrated in accordance with ANSI
S3.6–2004, ‘‘Specification for Audiometers.’’
The Director of the Federal Register approves
the incorporation by reference of this
standard in this section in accordance with
5 U.S.C. 552(a) and 1 CFR part 51. You may
obtain a copy of the incorporated standard
from the American National Standards
Institute at 1819 L Street, NW., Washington,
DC 20036 or https://www.ansi.org. You may
inspect a copy of the incorporated standard
at the Federal Railroad Administration,
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
1000
40
50
Docket Room, 1120 Vermont Ave., NW.,
Suite 700, Washington, DC 20005, or at the
National Archives and Records
Administration (NARA). For information on
the availability of this material at NARA, call
202–741–6030, or go to https://
www.archives.gov/federal_register/
code_of_federal_regulations/
ibr_locations.html.
B. Audiometers used with insert earphones
must be calibrated using one of the couplers
listed in Table 7 of ANSI S3.6–2004.
C. The acoustical calibration shall be
conducted annually.
D. The functional calibration must be
conducted before each day’s use of the
audiometer.
IV. Background Noise Levels
Testing shall be conducted in a room
where the background ambient noise octaveband sound pressures levels meet appendix
D to this part.
V. Conversion From Supra Aural Earphones
At the time of conversion from supra-aural
to insert earphones, testing must be
performed with both types of earphones.
A. The test subject must have a quiet
period of at least 14 hours before testing.
Hearing protectors may be used as a
substitute for the quiet period.
B. The supra-aural earphone audiogram
shall be compared to the baseline audiogram,
or the revised baseline audiogram if
appropriate, to check for a Standard
Threshold Shift (STS). In accordance with
§ 227.109(f)(2), if the audiogram shows an
STS, retesting with supra-aural earphones
must be performed within 90 days. If the
resulting audiogram confirms the STS, then
it is adopted as the current test instead of the
prior one.
C. If retesting with supra-aural earphones
is performed, then retesting with insert
earphones must be performed at that time to
establish the baseline for future audiometric
tests using the insert earphones.
PO 00000
Frm 00068
Fmt 4701
Sfmt 4700
2000
40
47
4000
47
49
8000
57
50
62
56
VI. Revised Baseline Audiograms
A. If an STS is confirmed by the re-test
with supra-aural earphones, the audiogram
may become the revised baseline audiogram
per the requirements of § 227.109(i) for all
future hearing tests with supra-aural
earphones. The insert-earphone audiogram
will become the new reference baseline
audiogram for all future hearing tests
performed with insert earphones.
B. If an STS is not indicated by the test
with supra-aural earphones, the baseline
audiogram remains the reference baseline
audiogram for all future supra-aural earphone
tests, until such time as an STS is observed.
In this case, the insert-earphone audiogram
taken at the same time will become the new
reference baseline audiogram for all future
hearing tests performed with insert
earphones.
C. Transitioning Employees with Partial
Shifts. Employers must account for the
workers who are in the process of developing
an STS (e.g., demonstrate a 7 dB average
shift), but who at the time of the conversion
to insert earphones do not have a 10 dB
average shift. Employers who want to use
insert earphones must enter the 7 dB shift
information in the employee’s audiometric
test records although it is not an ‘‘STS’’.
When the next annual audiogram using insert
earphones shows an average threshold shift
at 2000, 3000 and 4000 Hz of 3 dB,
completing the full shift (7 dB + 3 dB),
employers must then label that average shift
as an STS. This triggers the follow-up
procedures at § 227.109(h).
VII. Records
All audiograms (including both those
produced through the use of insert earphones
and supra-aural headsets), calculations, puretone individual and average threshold shifts,
full STS migrations, and audiometric
acoustical calibration records, are to be
preserved as records and maintained
according to § 227.121(c).
E:\FR\FM\27OCR2.SGM
27OCR2
63133
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Appendix F to Part 227—Calculations
and Application of Age Corrections to
Audiograms
This appendix is non-mandatory.
In determining whether a standard
threshold shift (STS) has occurred, allowance
may be made for the contribution of aging to
the change in hearing level by adjusting the
most recent audiogram. If the employer
chooses to adjust the audiogram, the
employer shall follow the procedure
described below. This procedure and the age
correction tables were developed by the
National Institute for Occupational Safety
and Health in a criteria document. See
‘‘Criteria for a Recommended Standard:
Occupational Exposure to Noise,’’
Department of Health and Human Services
(NIOSH) Publication No. 98–126. For each
audiometric test frequency:
I. Determine from Tables F–1 or F–2 the
age correction values for the employee by:
A. Finding the age at which the most
recent audiogram was taken and recording
the corresponding values of age corrections at
1000 Hz through 6000 Hz;
Audiometric test frequency
(Hz)
Employee’s age
1000
26 .......................................................................................................................
27* ......................................................................................................................
28 .......................................................................................................................
29 .......................................................................................................................
30 .......................................................................................................................
31 .......................................................................................................................
32* ......................................................................................................................
a. The audiogram at age 27 is considered
the baseline since it shows the best hearing
threshold levels. Asterisks have been used to
identify the baseline and most recent
audiogram. A threshold shift of 20 dB exists
B. Finding the age at which the baseline
audiogram was taken and recording the
corresponding values of age corrections at
1000 Hz through 6000 Hz.
II. Subtract the values found in step (I)(B)
from the value found in step (I)(A).
III. The differences calculated in step (II)
represented that portion of the change in
hearing that may be due to aging.
Example: Employee is a 32-year-old male.
The audiometric history for his right ear is
shown in decibels below.
2000
10
0
0
5
0
5
5
at 4000 Hz between the audiograms taken at
ages 27 and 32.
b. (The threshold shift is computed by
subtracting the hearing threshold at age 27,
which was 5, from the hearing threshold at
age 32, which is 25). A retest audiogram has
3000
5
0
0
0
5
10
10
4000
5
0
0
5
10
20
10
6000
10
5
10
15
20
15
25
5
5
5
5
10
15
20
confirmed this shift. The contribution of
aging to this change in hearing may be
estimated in the following manner:
c. Go to Table F–1 and find the age
correction values (in dB) for 4000 Hz at age
27 and age 32.
Frequency
(Hz)
1000
2000
3000
4000
6000
Age 32 ................................................................................................................
Age 27 ................................................................................................................
6
5
5
4
7
6
10
7
14
11
Difference ....................................................................................................
1
1
1
3
3
d. The difference represents the amount of
hearing loss that may be attributed to aging
in the time period between the baseline
audiogram and the most recent audiogram. In
this example, the difference at 4000 Hz is 3
dB. This value is subtracted from the hearing
level at 4000 Hz, which in the most recent
audiogram is 25, yielding 22 after
adjustment. Then the hearing threshold in
the baseline audiogram at 4000 Hz (5) is
subtracted from the adjusted annual
audiogram hearing threshold at 4000 Hz (22).
Thus the age-corrected threshold shift would
be 17 dB (as opposed to a threshold shift of
20 dB without age correction).
TABLE F–1.—AGE CORRECTION VALUES IN DECIBELS FOR MALES
Audiometric test frequencies
(Hz)
Years
rmajette on PROD1PC67 with RULES2
1000
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
or younger .....................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
PO 00000
Frm 00069
Fmt 4701
Sfmt 4700
2000
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
7
3000
3
3
3
3
3
3
4
4
4
4
4
4
5
5
5
5
E:\FR\FM\27OCR2.SGM
4000
4
4
4
4
5
5
5
6
6
6
6
7
7
7
8
8
27OCR2
6000
5
5
5
6
6
7
7
7
8
8
9
9
10
10
11
11
8
8
8
9
9
10
10
11
11
12
12
13
14
14
15
15
63134
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
TABLE F–1.—AGE CORRECTION VALUES IN DECIBELS FOR MALES—Continued
Audiometric test frequencies
(Hz)
Years
1000
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
or older ..........................................................................................................
2000
7
7
7
7
7
7
8
8
8
8
8
8
9
9
9
9
9
9
10
10
10
10
10
11
11
3000
5
6
6
6
6
6
7
7
7
7
8
8
8
9
9
9
10
10
10
11
11
11
12
12
13
4000
9
9
9
10
10
10
11
12
12
13
13
14
14
15
16
16
17
18
18
19
20
21
22
22
23
6000
12
12
13
14
14
14
16
16
17
18
19
19
20
21
22
23
24
25
26
27
28
29
31
32
33
16
17
17
18
19
20
20
21
22
23
24
24
25
26
27
28
29
30
31
32
34
35
36
37
38
TABLE F–2.—AGE CORRECTION VALUES IN DECIBELS FOR FEMALES
Audiometric test frequencies
(Hz)
Years
rmajette on PROD1PC67 with RULES2
1000
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
or younger .....................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
PO 00000
Frm 00070
Fmt 4701
Sfmt 4700
2000
7
7
7
7
7
8
8
8
8
8
8
8
9
9
9
9
9
9
10
10
10
10
10
11
11
11
11
11
12
12
12
12
12
13
13
13
3000
4
4
4
5
5
5
5
5
5
5
6
6
6
6
6
6
7
7
7
7
7
8
8
8
8
8
9
9
9
9
10
10
10
10
11
11
E:\FR\FM\27OCR2.SGM
4000
3
4
4
4
4
4
5
5
5
5
5
6
6
6
6
7
7
7
7
8
8
8
9
9
9
10
10
10
11
11
11
12
12
13
13
14
27OCR2
6000
3
3
4
4
4
4
4
5
5
5
5
5
6
6
6
7
7
7
7
8
8
8
9
9
9
10
10
11
11
11
12
12
13
13
14
14
6
6
6
7
7
7
8
8
8
9
9
9
10
10
10
11
11
12
12
12
13
13
13
14
14
15
15
16
16
16
17
17
18
18
19
19
63135
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
TABLE F–2.—AGE CORRECTION VALUES IN DECIBELS FOR FEMALES—Continued
Audiometric test frequencies
(Hz)
Years
1000
56
57
58
59
60
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
.......................................................................................................................
or older ..........................................................................................................
2000
13
13
14
14
14
3000
11
11
12
12
12
4000
14
15
15
16
16
6000
15
15
16
16
17
20
20
21
21
22
Appendix G to Part 227—Schedule of
Civil Penalties
rmajette on PROD1PC67 with RULES2
Section
Violation
Subpart A—General
227.3 Application:
(b)(4) Failure to meet the required conditions for foreign railroad operations .........................................................
Subpart B—General Requirements
227.103 Noise monitoring program:
(a) Failure to develop and/or implement a noise monitoring program ....................................................................
(b) Failure to use sampling as required ...................................................................................................................
(c) Failure to integrate sound levels and/or make noise measurements as required .............................................
(d) Failure to repeat noise monitoring where required ............................................................................................
(e) Failure to consider work environments where hearing protectors may be omitted ...........................................
(f) Failure to provide opportunity to observe monitoring ..........................................................................................
(g) Reporting of Monitoring Results:
(1) Failure to notify monitored employee ..........................................................................................................
(2) Failure to post results as required ...............................................................................................................
227.105 Protection of employees:
(a) Failure to provide appropriate protection to exposed employee ........................................................................
(b) Failure to observe and document source(s) of noise exposures .......................................................................
(c)–(d) Failure to protect employee from impermissible continuous noise ..............................................................
227.107 Hearing conservation program:
(a) Failure to administer a HCP ...............................................................................................................................
(b) Failure to compute noise exposure as required .................................................................................................
227.109 Audiometric testing program:
(a) Failure to establish and/or maintain an audiometric testing program ................................................................
(b) Failure to provide audiometric test at no cost to employee ...............................................................................
(c) Failure to have qualified person perform audiometric test .................................................................................
(d) [Reserved] ...........................................................................................................................................................
(e) Failure to establish baseline audiogram as required .........................................................................................
(f) Failure to offer and/or require periodic audiograms as required .........................................................................
(g) Failure to evaluate audiogram as required .........................................................................................................
(h) Failure to comply with follow-up procedures as required ...................................................................................
(i) Failure to use required method for revising baseline audiograms ......................................................................
227.111 Audiometric test requirements:
(a) Failure to conduct test as required .....................................................................................................................
(b) Failure to use required equipment ......................................................................................................................
(c) Failure to administer test in room that meets requirements ...............................................................................
(d) Complete failure to calibrate ...............................................................................................................................
(1) Failure to perform daily calibration as required ...........................................................................................
(2) Failure to perform annual calibration as required .......................................................................................
(3) Failure to perform exhaustive calibration as required .................................................................................
227.115 Hearing protectors (HP):
(a) Failure to comply with general requirements .....................................................................................................
(b) Failure to make HP available as required ..........................................................................................................
(c) Failure to require use of HP at action level ........................................................................................................
(d) Failure to require use of HP at TWA of 90 dB(A) ..............................................................................................
227.117 Hearing protector attenuation:
(a) Failure to evaluate attenuation as required ........................................................................................................
(b)–(c) Failure to attenuate to required level ...........................................................................................................
(d) Failure to re-evaluate attenuation .......................................................................................................................
227.119 Training program:
(a) Failure to institute a training program as required .............................................................................................
(b) Failure to provide training within required time frame ........................................................................................
(c) Failure of program and/or training materials to include required information ....................................................
227.121 Recordkeeping:
(a) General Requirements:
(1) Failure to make record available as required ..............................................................................................
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
PO 00000
Frm 00071
Fmt 4701
Sfmt 4700
E:\FR\FM\27OCR2.SGM
27OCR2
Willful
violation
$2,500
$5,000
7,500
2,500
2,500
2,500
2,500
2,000
10,000
5,000
5,000
5,000
5,000
4,000
2,500
2,500
5,000
5,000
7,500
2,500
5,000
10,000
5,000
7,500
7,500
3,500
10,000
7,000
7,500
2,500
2,500
....................
3,500
2,500
2,500
2,500
2,500
10,000
5,000
5,000
....................
7,000
5,000
5,000
5,000
5,000
2,500
2,500
2,500
5,000
2,000
2,000
2,000
5,000
5,000
5,000
7,500
4,000
4,000
4,000
3,000
2,500
5,000
5,000
6,000
5,000
7,500
7,500
2,500
2,500
2,500
5,000
5,000
5,000
5,000
2,500
2,500
7,500
5,000
5,000
2,500
5,000
63136
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Section
Violation
(3) Failure to transfer or retain records as required .........................................................................................
(b)–(f) Records:
(1) Failure to maintain record or failure to maintain record with required information .....................................
(2) Failure to retain records for required time period .......................................................................................
PART 229—[AMENDED]
2. The authority citation for part 229
continues to read as follows:
I
Authority: 49 U.S.C. 20102–03, 20107,
20133, 20137–38, 20143, 20701–03, 21301–
02, 21304; 49 CFR 1.49.
3. Section 229.4 is amended by
revising paragraph (b) to read as follows:
I
§ 229.4
Information collection.
*
*
*
*
*
(b) The information collection
requirements are found in the following
sections: §§ 229.9, 229.17, 229.21,
229.23, 229.25, 229.27, 229.29, 229.31,
229.33, 229.55, 229.103, 229.105,
229.113, 229.121, 229.135, and
appendix H to part 229.
I 4. Section 229.5 is amended by
adding, in alphabetical order, the
following definitions.
§ 229.5
Definitions.
*
*
*
*
*
dB(A) means the sound pressure level
in decibels measured on the A-weighted
scale.
*
*
*
*
*
Decibel (dB) means a unit of
measurement of sound pressure levels.
*
*
*
*
*
Excessive noise report means a report
by a locomotive cab occupant that the
locomotive is producing an unusual
level of noise that significantly
interferes with normal cab
communications or that is a concern
with respect to hearing conservation.
*
*
*
*
*
Upper 99% confidence limit means
the noise level below which 99% of all
noise level measurements must lie.
*
*
*
*
*
I 5. Section 229.121 is revised to read
as follows:
§ 229.121
Locomotive cab noise
rmajette on PROD1PC67 with RULES2
(a) Performance Standards for
Locomotives.
(1) When tested for static noise in
accordance with paragraph (a)(3) of this
section, all locomotives of each design
or model that are manufactured after
October 29, 2007, shall average less than
or equal to 85 dB(A), with an upper
99% confidence limit of 87 dB(A). The
railroad may rely on certification from
the equipment manufacturer for a
production run that this standard is met.
The manufacturer may determine the
average by testing a representative
sample of locomotives or an initial
series of locomotives, provided that
there are suitable manufacturing quality
controls and verification procedures in
place to ensure product consistency.
(2) In the maintenance of locomotives
that are manufactured in accordance
with paragraph (a)(1) of this section, a
railroad shall not make any alterations
that cause the average sound level for
that locomotive design or model to
exceed:
(i) 82 dB(A) if the average sound level
for a locomotive design or model is less
than 82 dB(A); or
(ii) 85 dB(A) if the average sound
level for a locomotive design or model
is 82 dB(A) to 85 dB(A), inclusive,
(3) The railroad or manufacturer shall
follow the static test protocols set forth
in appendix H of this part to determine
compliance with paragraph (a)(1) of this
section; and, to the extent reasonably
necessary to evaluate the effect of
alterations during maintenance, to
determine compliance with paragraph
(a)(2) of this section.
(b) Maintenance of Locomotives.
(1) If a railroad receives an excessive
noise report, and if the condition giving
rise to the noise is not required to be
immediately corrected under part 229,
the railroad shall maintain a record of
the report, and repair or replace the item
identified as substantially contributing
to the noise:
(i) on or before the next periodic
inspection required by § 229.23; or
(ii) if the railroad determines that the
repair or replacement of the item
requires significant shop or material
resources that are not readily available,
at the time of the next major equipment
VerDate Aug<31>2005
16:17 Oct 26, 2006
Jkt 211001
*
Frm 00072
4,000
2,000
2,000
4,000
4,000
6. Appendix B to part 229 is amended
by revising the entry related to § 229.121
to read as follows:
I
Appendix B to Part 229—Schedule of
Civil Penalties
*
*
*
*
*
Violation
*
PO 00000
2,000
repair commonly used for the particular
type of maintenance needed.
(2) Conditions that may lead a
locomotive cab occupant to file an
excessive noise report include, but are
not limited to: defective cab window
seals; defective cab door seals; broken or
inoperative windows; deteriorated
insulation or insulation that has been
removed for other reasons; broken or
inoperative doors; and air brakes that
vent inside of the cab.
(3) A railroad has an obligation to
respond to an excessive noise report
that a locomotive cab occupant files.
The railroad meets its obligation to
respond to an excessive noise report, as
set forth in paragraph (b)(1) of this
section, if the railroad makes a good
faith effort to identify the cause of the
reported noise, and where the railroad
is successful in determining the cause,
if the railroad repairs or replaces the
items cause the noise.
(4) Recordkeeping.
(i) A railroad shall maintain a written
or electronic record of any excessive
noise report, inspection, test,
maintenance, replacement, or repair
completed pursuant to § 229.121(b) and
the date on which that inspection, test,
maintenance, replacement, or repair
occurred. If a railroad elects to maintain
an electronic record, the railroad must
satisfy the conditions listed in
§ 227.121(a)(2)(i) through (v).
(ii) The railroad shall retain these
records for 92 days if they are made
pursuant to § 229.21, or for one year if
they are made pursuant to § 229.23.
(iii)The railroad shall establish an
internal, auditable, monitorable system
that contains these records.
Section
*
*
229.121 Locomotive Cab Noise:
(a) Performance Standards
Fmt 4701
*
Sfmt 4700
Willful
violation
E:\FR\FM\27OCR2.SGM
*
27OCR2
Willful
violation
*
63137
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
Section
Violation
(1) Failure to meet sound level .........................................................................................................................
(2) Improper maintenance alterations ...............................................................................................................
(3) Failure to comply with static test protocols .................................................................................................
(b) Maintenance of Locomotives
(1) Failure to maintain excessive noise report record or respond to report as required ..................................
(3) Failure to make good faith effort as required ..............................................................................................
(4) Failure to maintain record as required ........................................................................................................
*
*
*
*
*
*
*
7. Appendices F and G are added to
part 229 and reserved.
I 8. Appendix H is added to part 229 to
read as follows:
I
Appendix H to Part 229: Static Noise
Test Protocols—In-Cab Static
This appendix prescribes the procedures
for the in-cab static measurements of
locomotives.
rmajette on PROD1PC67 with RULES2
I. Measurement Instrumentation
The instrumentation used should conform
to the following: An integrating-averaging
sound level meter shall meet all the
requirements of ANSI S1.43–1997
(Reaffirmed 2002), ‘‘Specifications for
Integrating-Averaging Sound Level Meters,’’
for a Type 1 Instrument. In the event that a
Type 1 instrument is not available, the
measurements may be conducted with a
Type 2 instrument. The acoustic calibrator
shall meet the requirement of the ANSI
S1.40–1984 (Reaffirmed 2001), ‘‘Specification
for Acoustical Calibrators.’’ The Director of
the Federal Register approves the
incorporation by reference of ANSI S1.43–
1997 (Reaffirmed 2002) and ANSI S1.40–
1984 (Reaffirmed 2001) in this section in
accordance with 5 U.S.C. 552(a) and 1 CFR
part 51. You may obtain a copy of the
(5) The observer shall stand as far from the
microphone as possible. No more than two
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
*
*
incorporated standards from the American
National Standards Institute at 1819 L Street,
NW., Washington, DC 20036 or https://
www.ansi.org. You may inspect a copy of the
incorporated standards at the Federal
Railroad Administration, Docket Room, 1120
Vermont Ave., NW., Suite 700, Washington,
DC 20005, or at the National Archives and
Records Administration (NARA). For
information on the availability of this
material at NARA, call 202–741–6030, or go
to https://www.archives.gov/federal_register/
code_of_federal_regulations/
ibr_locations.html
II. Test Site Requirements
The test site shall meet the following
requirements:
(1) The locomotive to be tested should not
be positioned where large reflective surfaces
are directly adjacent to or within 25 feet of
the locomotive cab.
(2) The locomotive to be tested should not
be positioned where other locomotives or rail
cars are present on directly adjacent tracks
next to or within 25 feet of the locomotive
cab.
(3) All windows, doors, cabinets seals, etc.,
must be installed in the locomotive cab and
be closed.
(4) The locomotive must be running for
sufficient time before the test to be at normal
operating temperature.
people (tester, observers or crew members)
shall be inside the cab during measurements.
PO 00000
Frm 00073
Fmt 4701
Sfmt 4700
5,000
2,500
2,500
7,500
5,000
5,000
2,500
2,500
2,000
5,000
5,000
4,000
*
*
(5) The heating, ventilation and air
conditioning (HVAC) system or a dedicated
heating or air conditioner system must be
operating on high, and the vents must be
open and unobstructed.
(6) The locomotive shall not be tested in
any site specifically designed to artificially
lower in-cab noise levels.
III. Procedures for Measurement
(1) LAeq, T is defined as the A-weighted,
equivalent sound level for a duration of T
seconds, and the sound level meter shall be
set for A-weighting with slow response.
(2) The sound level meter shall be
calibrated with the acoustic calibrator
immediately before and after the in-cab static
tests. The calibration levels shall be recorded.
(3) Any change in the before and after
calibration level(s) shall be less than 0.5 dB.
(4) The sound level meter shall be
measured at each of the following locations:
(A) 30 inches above the center of the left
seat;
(B) Centered in the middle of the cab
between the right and left seats, and 56
inches above the floor;
(C) 30 inches above the center of the right
seat; and
(D) One foot (0.3 meters) from the center
of the back interior wall of the cab and 56
inches above the floor. See Figure 1.
(6) The locomotive shall be tested under
self-loading conditions if so equipped. If the
locomotive is not equipped with self load,
E:\FR\FM\27OCR2.SGM
27OCR2
ER27OC06.005</GPH>
*
Willful
violation
63138
Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 / Rules and Regulations
rmajette on PROD1PC67 with RULES2
the locomotive shall be tested with no-load
(No-load defined as maximum RPM—no
electric load) and an adjustment of 3 dB
added to the measured level.
(7) The sound level shall be recorded at the
highest horsepower or throttle setting.
(8) After the engine speed has become
constant and the in-cab noise is continuous,
LAeq, T shall be measured, either directly or
using a 1 second sampling interval, for a
minimum duration of 30 seconds at each
measurement position (LAeq, 30s).
(9) The highest LAeq, 30s of the 4
measurement positions shall be used for
determining compliance with § 229.121(a).
(10) A locomotive that has failed to meet
the static test requirements of this regulation
may be re-tested in accordance with the
requirements in section II of this appendix.
VerDate Aug<31>2005
15:24 Oct 26, 2006
Jkt 211001
IV. Recordkeeping
To demonstrate compliance, the entity
conducting the test shall maintain records of
the following data. The records created under
this procedure shall be retained and made
readily accessible for review for a minimum
of three years. All records may be maintained
in either written or electronic form.
(1) Name(s) of persons conducting the test,
and the date of the test.
(2) Description of locomotive being tested,
including: make, model number, serial
number, and date of manufacture.
(3) Description of sound level meter and
calibrator, including: make, model, type,
serial number, and manufacturer’s calibration
date.
PO 00000
Frm 00074
Fmt 4701
Sfmt 4700
(4) The recorded measurement during
calibration and for each microphone location
during operating conditions.
(5) Other information as appropriate to
describe the testing conditions and
procedure, including whether or not the
locomotive was tested under self-loading
conditions, or not.
(6) Where a locomotive fails a test and is
re-tested under the provisions of § III(9) of
this appendix, the suspected reason(s) for the
failure.
Issued in Washington, DC, on September
29, 2006.
Joseph H. Boardman,
Federal Railroad Administrator.
[FR Doc. 06–8612 Filed 10–26–06; 8:45 am]
BILLING CODE 4910–06–P
E:\FR\FM\27OCR2.SGM
27OCR2
]]>Agencies
[Federal Register Volume 71, Number 208 (Friday, October 27, 2006)]
[Rules and Regulations]
[Pages 63066-63138]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 06-8612]
[[Page 63065]]
-----------------------------------------------------------------------
Part II
Department of Transportation
-----------------------------------------------------------------------
Federal Railroad Administration
-----------------------------------------------------------------------
49 CFR Parts 227 and 229
Occupational Noise Exposure for Railroad Operating Employees; Final
Rule
��Federal Register / Vol. 71, No. 208 / Friday, October 27, 2006 /
Rules and Regulations��
[[Page 63066]]
-----------------------------------------------------------------------
DEPARTMENT OF TRANSPORTATION
Federal Railroad Administration
49 CFR Parts 227 and 229
[Docket No. FRA 2002-12357, Notice No. 2]
RIN 2130-AB56
Occupational Noise Exposure for Railroad Operating Employees
AGENCY: Federal Railroad Administration (FRA), Department of
Transportation (DOT).
ACTION: Final rule.
-----------------------------------------------------------------------
SUMMARY: FRA is amending its occupational noise standards for railroad
employees whose predominant noise exposure occurs in the locomotive
cab. FRA's previous standard (issued in 1980) limited cab employee
noise exposure to certain levels based on the duration of their
exposure. This rule modifies that standard and also sets out additional
requirements.
FRA is requiring railroads to conduct noise monitoring and to
implement a hearing conservation program for railroad operating
employees whose noise exposure equals or exceeds an 8-hour time-
weighted average (TWA) of 85 decibels. FRA is also establishing design,
build, and maintenance standards for new locomotives and maintenance
requirements for existing locomotives. FRA expects that this rule will
reduce the likelihood of noise-induced hearing loss for railroad
operating employees.
DATES: This final rule is effective February 26, 2007. The
incorporation by reference of certain publications listed in the rule
is approved by the Director of the Federal Register as of February 26,
2007. Any petitions for reconsideration with this final rule must be
submitted no later than December 26, 2006.
ADDRESSES: Docket: For access to the docket to read background
documents or comments received, go to https://dms.dot.gov at any time or
to Room PL-401 on the plaza level of the Nassif Building, 400 Seventh
Street, SW., Washington, DC, between 9 a.m. and 5 p.m., Monday through
Friday, except Federal holidays.
FOR FURTHER INFORMATION CONTACT: Alan Misiaszek, Senior Industrial
Hygienist, Office of Safety, Federal Railroad Administration, 1120
Vermont Avenue, NW., Mail Stop 25, Washington, DC 20590 (e-mail:
Alan.Misiaszek@dot.gov and telephone: 202-493-6002); Jeffrey Horn,
Economist, Office of Safety, Federal Railroad Administration, 1120
Vermont Avenue, NW., Mail Stop 25, Washington, DC 20590 (e-mail:
Jeffrey.Horn@dot.gov and telephone: 202-493-6283); or Jennifer Schwab,
Trial Attorney, Office of Chief Counsel, Federal Railroad
Administration, 1120 Vermont Avenue, NW., Mail Stop 10, Washington, DC
20590 (e-mail:Jennifer.Schwab@dot.gov and telephone: 202-493-6349).
SUPPLEMENTARY INFORMATION: Note that for brevity, all references to CFR
parts will be to parts in Title 49 of the Code of Federal Regulations
(49 CFR), unless otherwise noted.
Table of Contents for Supplementary Information
I. Background
A. Statutory and Regulatory Framework
1. Railroad Safety, In General
2. FRA-OSHA Jurisdiction for Occupational Safety and Health
Issues
3. Federal Occupational Noise Standards
B. History of FRA's Treatment of Occupational Noise
1. FRA's Past Noise Standard
2. Studies of Noise
C. Fundamental Principles of Sound
D. Occupational Noise in the Railroad Industry
II. The Railroad Safety Advisory Committee (RSAC) Process
A. RSAC
B. Working Group
III. FRA's Noise Standard
A. FRA's Approach to Cab Noise
B. Responsibilities of Railroads and Employees
C. Compliance
IV. Summary of Comments
A. In General
B. Approaches Other Than the OSHA HCA
C. Hierarchy of Controls
D. Triggering Criteria
E. Weighting Filter
F. Electronic Communication Headsets
G. Location of the Train Horn
H. Report to Congress
I. Regulatory Impact Analysis
V. Section-by-Section Analysis
VI. Regulatory Impact and Notices
A. Executive Order 12866 and DOT Regulatory Policies and
Procedures
B. Regulatory Flexibility Act of 1980 and Executive Order 13272
C. Paperwork Reduction Act of 1995
D. Federalism Implications
E. Environmental Impact
F. Unfunded Mandates Reform Act of 1995
G. Energy Impact
H. Privacy Act
I. Background
A. Statutory and Regulatory Framework
1. Railroad Safety, in General
FRA has broad statutory authority to regulate railroad safety. The
Locomotive Inspection Act (``LIA'') (formerly 45 U.S.C. 22-34, now 49
U.S.C. 20701-20703) was enacted in 1911. It prohibits the use of unsafe
locomotives and authorizes FRA to issue standards for locomotive
maintenance and testing. In order to further FRA's ability to respond
effectively to contemporary safety problems and hazards as they arise
in the railroad industry, Congress enacted the Federal Railroad Safety
Act of 1970 (``Safety Act'') (formerly 45 U.S.C. 421, 431 et seq., now
found primarily in chapter 201 of Title 49 of the United States Code).
The Safety Act grants the Secretary of Transportation rulemaking
authority over all areas of railroad safety (49 U.S.C. 20103(a)) and
confers all powers necessary to detect and penalize violations of any
rail safety law. This authority was subsequently delegated to the FRA
Administrator (49 CFR 1.49). (Until July 5, 1994, the Federal railroad
safety statutes existed as separate acts found primarily in Title 45 of
the United States Code. On that date, all of the acts were repealed,
and their provisions were recodified into Title 49.)
The term ``railroad'' is defined in the Safety Act to include
all forms of non-highway ground transportation that runs on rails or
electromagnetic guideways, * * * other than rapid transit operations
within an urban area that are not connected to the general railroad
system of transportation.
This definition makes clear that FRA has jurisdiction over (1) rapid
transit operations within an urban area that are connected to the
general railroad system of transportation, and (2) all freight,
intercity, passenger, and commuter rail passenger operations regardless
of their connection to the general railroad system of transportation or
their status as a common carrier engaged in interstate commerce. FRA
has issued a policy statement describing how it determines whether
particular rail passenger operations are subject to FRA's
jurisdiction.\1\ That policy statement is located in Appendix A to part
209.
---------------------------------------------------------------------------
\1\ See 65 FR 42529 (July 2, 2000).
---------------------------------------------------------------------------
Pursuant to its statutory authority, FRA promulgates and enforces a
comprehensive regulatory program to address railroad track, signal
systems, railroad communications, rolling stock, rear-end marking
devices, safety glazing, railroad accident/incident reporting,
locational requirements for dispatching of U.S. rail operations, safety
integration plans governing railroad consolidations, merger and
acquisitions of control, operating practices, passenger train emergency
preparedness, alcohol and drug testing, locomotive engineer
certification, and workplace safety. In the area of workplace safety,
the agency has issued a variety of standards
[[Page 63067]]
designed to protect the health and safety of railroad employees. For
instance, FRA requires ladders and handholds to be installed on rail
equipment in order to prevent employee falls (part 231). FRA requires
locomotive cab floors and passageways to remain clear of debris and oil
in order to prevent employee slips, trips, and falls (Sec. 229.119).
FRA requires blue signal protection in order to protect employees
working on railroad equipment from injuries due to the unexpected
movement of the equipment (part 218). FRA has rules that provide for
the protection of railroad employees working on or near railroad tracks
in order to decrease the risk of employees falling from railroad
bridges and of being struck by moving trains (part 214).
2. FRA-OSHA Jurisdiction for Occupational Safety and Health Issues
FRA and the U.S. Occupational Safety and Health Administration \2\
(OSHA) have a complementary relationship with respect to occupational
safety and health issues in the railroad industry. OSHA regulates
conditions and hazards affecting the health and safety of employees in
the workplace. OSHA's jurisdiction extends to working conditions in all
types of employment, except where another Federal agency exercises
statutory authority to prescribe or enforce standards or regulations
covering the working conditions pursuant to Sec. 4(b)(1) of the OSH
Act. See 29 U.S.C. 653(b)(1). Section 4(b)(1) preempts OSHA's
jurisdiction where another federal agency issues its own regulations or
standards or articulates a formal position that a particular working
condition should go unregulated.
---------------------------------------------------------------------------
\2\ OSHA is an agency within the U.S. Department of Labor.
Congress created OSHA with the Occupational Safety and Health Act of
1970 (``OSH Act''). Pursuant to the OSH Act, employers have a duty
to protect workers from workplace hazards, including noise.
---------------------------------------------------------------------------
In 1978, FRA issued a Statement of Policy setting out the
respective areas of jurisdiction between FRA and OSHA in the railroad
industry. See 43 FR 10583 (March 14, 1978). In that Policy Statement,
FRA drew the jurisdictional line between ``occupational safety and
health'' issues in the railroad industry and work related to ``railroad
operations,'' with FRA exercising authority over railroad operations
and OSHA over occupational safety and health issues. Further, the
Policy Statement pointed to FRA's ``proper role'' as concentrating its
``limited resources in addressing hazardous working conditions in those
traditional areas of railroad operations'' (i.e., ``movement of
equipment over the rails'') in which FRA has special competence and
expertise. See 43 FR 10585. Often, railroad working conditions are so
unique that a regulatory body other than FRA would not possess the
requisite expertise to determine appropriate safety standards.
As a general rule, FRA exercises its statutory jurisdiction over
railroad employee working conditions where employees are engaged in
duties that are intrinsic to ``railroad operations,'' where the
identical conditions generally do not occur in typical industrial
settings, and where the hazard falls within the scope of FRA's
expertise. Historically, the concept of ``railroad safety'' has
included the health and safety of employees when they are engaged in
railroad operations. In its 1978 Statement concerning employee
workplace safety, FRA stated:
The term ``safety'' includes health-related aspects of railroad
safety to the extent such considerations are integrally related to
operational safety hazards or measures taken to abate such hazards.
43 FR 10585.
Hazards that impact the health of railroad employees engaged in
railroad operations may also result in adverse impacts on railroad
safety, and so there is often a clear nexus between railroad safety and
employee health. An example of this jurisdiction is seen in FRA's
issuance of locomotive sanitation standards. See 67 FR 16032 (April 4,
2002). There, FRA promulgated regulations that address toilet and
washing facilities for employees who work in locomotive cabs. See 49
CFR Sec. Sec. 229.137 through 139.
FRA has also exercised this jurisdiction with regard to
occupational noise in the locomotive cab. FRA issued its current
standard for locomotive cab noise in 1980. While OSHA, in general,
regulates occupational noise in the workplace,\3\ FRA is the more
appropriate entity to regulate noise in the locomotive cab, because the
locomotive cab is so much a part of ``railroad operations.'' With
respect to noise in the locomotive cab, FRA wrote, in its Policy
Statement, that:
---------------------------------------------------------------------------
\3\ See 29 CFR 1910.95 and 29 CFR 1926.52 (``Occupational Noise
Exposure'').
FRA views the question of occupational noise exposure of
employees engaged in railroad operations, during their involvement
in such operations, as a matter comprehended by the regulatory
fields over which FRA has exercised its statutory jurisdiction. FRA
is therefore responsible for determining what exposure levels are
permissible, what further regulatory steps may be necessary in this
area, if any, and what remedial measures are feasible when evaluated
in light of overall safety considerations. 43 FR 10588.
3. Federal Occupational Noise Standards
OSHA's occupational noise standard was promulgated under the Walsh-
Healey Public Contracts Act of 1969 \4\ for the purpose of protecting
employees from workplace exposure to damaging noise levels. The Walsh-
Healey Act contained very limited provisions. Its noise standard
allowed for a permissible exposure level of 90 dB(A), a 5 dB exchange
rate, and a 90 dB(A) threshold. OSHA adopted the Walsh-Healey standard
as an OSHA standard pursuant to section 6(a) of the OSH Act.
---------------------------------------------------------------------------
\4\ See 41 U.S.C. 35, et seq.
---------------------------------------------------------------------------
In January 1981, OSHA promulgated a Hearing Conservation Amendment
(HCA) to its occupational noise exposure standard. See 46 FR 4078
(January 16, 1981). The amendment consisted of requirements for noise
measurements, audiometric testing, the use and care of hearing
protectors, employee training, employee education, and recordkeeping.
Portions of the amendment were subsequently stayed for reconsideration
and clarification. See 46 FR 42622 (August 21, 1981). In 1983, OSHA
finalized the provisions of its Hearing Conservation Amendment by
revoking various stayed provisions, lifting the stay on other
provisions, and making other technical corrections.\5\ OSHA's revised
regulation included a detailed hearing conservation program (HCP).\6\
OSHA's occupational noise standard applies, for the most part, to all
industry engaged in interstate commerce.\7\ OSHA's noise standard can
be found at 29 CFR 1910.95. As will be discussed in subsequent
sections, FRA's standard is quite similar to OSHA's standard.
---------------------------------------------------------------------------
\5\ See 48 FR 9738 (March 8, 1983).
\6\ Throughout the rule, FRA uses ``hearing conservation
program'' and HCP interchangeably.
\7\ OSHA has a separate occupational noise regulation that
applies to the construction industry. See 29 CFR 1926.52.
---------------------------------------------------------------------------
While OSHA is the primary regulator of noise in the workplace,
other federal agencies, in addition to FRA, regulate specific
occupational settings. FRA regulates employee noise exposure in the
locomotive cab. The U.S. Air Force regulates the noise environment of
Air Force personnel.\8\ The Mine Safety and Health Administration
(MSHA) regulates the occupational noise exposure of miners.
---------------------------------------------------------------------------
\8\ See Air Force Occupational Safety and Health Standard 48-20,
``Hearing Conservation Program.''
---------------------------------------------------------------------------
In 1999, MSHA issued a comprehensive rule that establishes uniform
requirements for all miners. See
[[Page 63068]]
64 FR 49548 (September 13, 1999). In that rule, MSHA adopted a
permissible exposure level of 90 dB(A) as an 8-hour TWA. MSHA also
requires employers to use all feasible engineering and administrative
controls in order to reduce a miner's noise exposure to the permissible
exposure level. Where a mine operator is unable to reduce the noise
exposure to the permissible level, the mine operator must provide the
miner with hearing protectors (HP) and is required to ensure that the
miner uses them. In addition, where a miner is exposed at or above a
TWA of 85 dB(A), the employer must place the miner in a hearing
conservation program. The program must include exposure monitoring, the
use of hearing protectors, audiometric testing, training, and
recordkeeping. See 64 FR 49550.
B. History of FRA's Treatment of Occupational Noise
1. FRA's Past Noise Standard
In part 229, FRA establishes minimum federal safety standards for
locomotives. These regulations prescribe inspection and testing
requirements for locomotive components and systems. They also prescribe
minimum locomotive cab safety requirements. In 1980, FRA issued
standards for acceptable noise levels aboard a locomotive (49 CFR
229.121).\9\
---------------------------------------------------------------------------
\9\ For the Final Rule, see 45 FR 21092, 21105 and 21117 (March
31, 1980). For the Notice of Proposed Rulemaking, see 44 FR 29604,
29618 and 29627 (May 21, 1979).
---------------------------------------------------------------------------
Section 229.121 was promulgated to protect the hearing and health
of cab occupants and to facilitate crew communication. It provided that
noise level exposure in the cab may not exceed specific prescribed
levels. The provision limited employee noise exposure to an eight-hour
time-weighted average (TWA) of 90 dB(A) with a doubling rate of 5
dB(A). It also provided for an absolute upper noise limit of 115 dB(A).
In addition, it established procedures for noise testing.
At the time of the promulgation of the rule, there was discussion
as to the proposed noise exposure limits. One commenter to the 1980
proposed rule took exception to the proposed 90 dB(A) 8-hour time limit
and suggested that 85 dB(A) was more appropriate. FRA explained that,
in selecting the proposed noise exposure limits, it attempted to
``strike a balance between that which is most desirable and that which
is feasible.'' See 45 FR 21092, 21106 (March 31, 1980). FRA
acknowledged that more crew members would be at a lower risk at 85
dB(A), but also acknowledged that there would be problems with the
technical feasibility of, and economic impact associated with, an 85
dB(A) requirement. Based on the information available and technology of
the time, FRA determined that the 90 dB(A) 8-hour noise exposure limit
would ``provide adequate protection for the hearing, communication, and
comfort of locomotive crews under presently accepted standards.'' See
45 FR 21092, 21106 (March 31, 1980).
The then-existing Sec. 229.121 did not address hearing
conservation for locomotive cab employees, including the use of
personal protective equipment, ongoing hearing testing, employee
training on the cause and prevention of hearing loss, and periodic
noise monitoring in the workplace. These are standard components of an
occupational hearing conservation program, and OSHA requires them of
other general industry workplaces within its jurisdiction.
In 1992, Congress enacted section 10 of The Rail Safety Enforcement
and Review Act (RSERA) (Pub. L. 102-365, September 3, 1992; codified at
49 U.S.C. 20103, note) in response to concerns raised by employee
organizations, Congressional members, and recommendations of the
National Transportation Safety Board (NTSB) concerning crashworthiness
of and working conditions in locomotive cabs. Section 10 of RSERA,
entitled Locomotive Crashworthiness and Working Conditions, required
FRA ``to consider prescribing regulations to improve the safety and
working conditions of locomotive cabs'' throughout the railroad
industry. In order to determine whether regulations would be necessary,
Congress required FRA to assess ``the extent to which environmental,
sanitary, and other working conditions in locomotive cabs affect
productivity, health, and the safe operation of locomotives.''
In response to the Congressional mandate set forth in Section 10 of
RSERA, FRA undertook steps to determine the health and safety effects
of locomotive cab working conditions. FRA studied a variety of working
conditions in locomotive cabs, including sanitation, noise,
temperature, air quality, ergonomics, and vibration. FRA prepared the
Locomotive Crashworthiness and Cab Working Conditions Report to
Congress (``Report''), dated September 1996, which outlines the results
of these studies. A copy of the Report is included in the docket.\10\
With respect to noise, FRA conducted a comprehensive survey, reviewed
historical data on noise-related incidents and investigations, and
gathered information on hearing protection programs.
---------------------------------------------------------------------------
\10\ See document 4 of docket number 12357 on DOT's Docket Web
site (dms.dot.gov).
---------------------------------------------------------------------------
2. Studies of Noise
In the proposed rule, FRA provided an extensive discussion on
studies related to noise in the locomotive cab. This includes a 1971
study on highway-rail grade crossings \11\ and an addendum on the sound
environment in the locomotive cab,\12\ a 1980 study on in-cab
occupational noise exposure,\13\ an FRA Report to Congress on cab
working conditions,\14\ the Wyle Report (the Association of American
Railroads' (AAR) review of FRA's Report to Congress),\15\ a 1997
Technical Memorandum on the FRA Report to Congress and subsequent
review,\16\ and an FRA Administrator's Roundtable Discussion on Noise.
Copies of these documents are included in the docket. In the interest
of space, FRA is not republishing its discussion here. See 69 FR 35145,
35148-35151; June 23, 2004.
---------------------------------------------------------------------------
\11\ John Aurelius and Norman Korebor, ``The Visibility and
Audibility of Trains Approaching Rail-Highway Grade Crossings,''
Report No. FRA-RP-71-2, May 1971.
\12\ John P. Aurelius, ``The Sound Environment in Locomotive
Cabs,'' Report No. FRA-RP-71-2A, July 1971.
\13\ Roger D. Kilmer, ``Assessment of Locomotive Crew In-Cab
Occupational Noise Exposure,'' National Bureau of Standards. Report
No. FRA-ORD-80/91, December 1980.
\14\ FRA Report to Congress, ``Locomotive Crashworthiness and
Cab Working Conditions.'' September 1996.
\15\ Eric Stusnick for Wyle Laboratories, ``A Review of the
Noise and Vibration Sections of the Federal Railroad
Administration's Report to Congress Entitled `Locomotive
Crashworthiness and Cab Working Conditions.' '' December 1996. See
document 6 of docket number 12357 on DOT's Docket Web site
(dms.dot.gov).
\16\ Technical Memorandum from Hugh J. Saurenman and Lance D.
Meister of Harris Miller, Miller & Hanson, Inc., ``Comments on AAR
Review of Chapter 6, FRA Report to Congress ``Locomotive
Crashworthiness and Cab Working Conditions.'' June 1997. See
document 7 of docket number 12357 on DOT's Docket Web site
(dms.dot.gov).
---------------------------------------------------------------------------
C. Fundamental Principles of Sound
FRA provided an extensive discussion in the proposed rule on
fundamental principles of sound. The topics covered include sound,
hearing, hearing loss, and instrumentation. See 69 FR 35145, 35152-
35154.
D. Occupational Noise in the Railroad Industry
Noise is one of the most pervasive hazardous agents in the American
[[Page 63069]]
workplace. In the 1980's, the National Institute for Occupational
Safety and Health (NIOSH) identified noise-induced hearing loss (NIHL)
as one of the ten leading work-related diseases and injuries.\17\ In
the 1990's, NIOSH listed noise-induced hearing loss as one of the eight
most critical occupational diseases and injuries requiring research and
development activities within the framework of the National
Occupational Research Agenda.\18\ Noise is also one of the most
intrusive aspects of locomotive operations.\19\
---------------------------------------------------------------------------
\17\ National Institute for Occupational Safety and Health
(NIOSH), ``Criteria for a Recommended Standard: Occupational Noise
Exposure, Revised Criteria 1998,'' National Institute for
Occupational Safety and Health, DHHS (NOISH) Pub. No. 98-126,
Cincinnati, OH (1998).
\18\ NIOSH, ``National Occupational Research Agenda,'' National
Institute for Occupational Safety and Health, DHHS (NIOSH), Pub. No.
96-115, Cincinnati, OH (1996).
\19\ Human Factors Guidelines for Locomotive Cabs, DOT/FRA/ORD-
93/03 (November 1998).
---------------------------------------------------------------------------
There are many noise sources in a locomotive cab. The primary noise
sources are engine noise, locomotive horns, and brake noise. The nature
and level of noise generated by each source varies greatly. Diesel
engine noise is continuous, but it varies according to the engine load
and engine speed. The noise from locomotive horns (and other audible
warning devices) is sporadic but can be very loud if the window is open
and can be very frequent if there are many highway-rail grade
crossings.
Brake noise results from the air exhaust that comes from the brake
valves when the brakes are released. Air brake exhaust is a high
frequency sound and can be very intense. In the past, air brake exhaust
vented directly into the locomotive cab. By 1980, locomotive
manufacturers, maintenance facilities, and railroads had started
venting the exhaust below the cab floor. FRA noted this change in its
1980 locomotive cab noise rule. See 45 FR 21092 (March 31, 1980). FRA
recognized the effectiveness of this redesign, noting that it reduced
the cab occupant's noise dose by an estimated 15 to 20 percent while
still providing an audible indication of brake performance. See 45 FR
21092, 21015 (March 31, 1980). Manufacturers continued to re-design
locomotives accordingly, and today the vast majority of locomotives
have their air brake exhaust vented below the floor and away from the
crew. There are some older locomotives, though (such as the ones used
by some short lines), which still use the older equipment that vents
air brake exhaust into the cab.
Another noise source comes from vibrations which loosen cab
components--such as loose cab sheet metal, loose cab side windows, and
miscellaneous loose and/or poorly fitted cab equipment--and cause them
to resonate. Other potential noise sources include fans on dynamic
brake systems; alerters; wheel/rail contact at cruising speed; rooftop
or retrofitted air conditioning/cooling units; bells that are sounded
to indicate that the train is about to move; and radios that are used
for crew communication. Noise can also result from the cab structure,
depending on the particular design of the locomotive as it pertains to
noise or vibration isolation. Maintenance, or the lack thereof, can
also impact noise. Engines in less than ideal condition will run
rougher and noisier. Mountings can wear and loosen, which can create
new vibrations or decrease vibration damping. Also, worn engine
components (e.g., bearings) can create noise.
The locomotive is also subject to several external noise sources.
Since the locomotive cab is a mobile workplace, the level of noise
exposure varies greatly by the route traveled. Noise results from the
sound that is reflected into the cab (especially if through open
windows) from reflective surfaces such as tunnels, bridges, sheds, and
close embankments. Other conditions that can also impact noise include
the topography and grade of the work assignment and the use of
locomotive horns to provide notice at highway-rail grade crossings.
Predicting and addressing noise exposures in the locomotive cab is
difficult not only because of the wide variety of possible conditions,
but because of the mobile railroad workforce. It is a challenge to
create and implement effective training and testing programs, because
locomotive crews are not on the same run or same locomotive from one
day to the next. In addition, locomotive crews can work shifts that
last up to twelve hours.
II. The Railroad Safety Advisory Committee (RSAC) Process
A. RSAC
In March 1996, FRA established the RSAC, which provides a forum for
developing consensus recommendations on rulemakings and other safety
program issues. The Committee includes representation from all of the
agency's major customer groups, including railroad carriers, labor
organizations, suppliers, manufacturers, and other interested parties.
A list of member groups follows:
American Association of Private Railroad Car Owners (AARPCO)
American Association of State Highway & Transportation Officials
(AASHTO)
American Public Transportation Association (APTA)
American Short Line and Regional Railroad Association (ASLRRA)
American Train Dispatchers Department (ATDD)
Association of American Railroads (AAR)
Association of Railway Museums (ARM)
Association of State Rail Safety Managers (ASRSM)
Brotherhood of Locomotive Engineers and Trainmen (BLET)
Brotherhood of Maintenance of Way Employes Division (BMWED)
Brotherhood of Railroad Signalmen (BRS)
Federal Transit Administration (FTA)*
High Speed Ground Transportation Association
International Association of Machinists and Aerospace Workers
International Brotherhood of Electrical Workers (IBEW)
Labor Council for Latin American Advancement (LCLAA)*
League of Railway Industry Women*
National Association of Railroad Passengers (NARP)
National Association of Railway Business Women*
National Conference of Firemen & Oilers
National Railroad Construction and Maintenance Association
National Railroad Passenger Corporation (AMTRAK)
National Transportation Safety Board (NTSB)*
Railway Supply Institute (RSI)
Safe Travel America
Secretaria de Communicaciones y Transporte (Mexico)*
Sheet Metal Workers International Association (SMWIA)
Tourist Railway Association Inc.
Transport Canada*
Transport Workers Union of America (TWUA)
Transportation Communications International Union/BRC (TCIU/BRC)
United Transportation Union (UTU)
* Indicates associate membership.
When appropriate, FRA assigns a task to the RSAC, and after
consideration and debate, the RSAC may accept or reject the task. If
the RSAC accepts the task, the RSAC establishes a working group that
possesses the appropriate expertise and representation of interests to
develop recommendations to FRA for action on the task. The working
group develops the recommendations by consensus. The working group may
establish one or more task forces to develop the facts and options on a
particular aspect of a given task. The task force reports to the
working group. If a working group reaches unanimous consensus on
recommendations for action, the working group presents the package to
the RSAC for a vote. If a simple majority of the RSAC accepts the
proposal, the RSAC formally recommends the proposal to FRA.
[[Page 63070]]
FRA then determines what action to take on the recommendation.
Because FRA staff has played an active role at the working group level
in discussing the issues and options and in drafting the language of
the consensus proposal, and because the RSAC recommendation constitutes
the consensus of some of the industry's leading experts on a given
subject, FRA is often favorably inclined toward the RSAC
recommendation.
However, FRA is in no way bound to follow the recommendation, and
the agency exercises its independent judgement on whether the
recommended rule achieves the agency's regulatory goal, is soundly
supported, and is in accordance with policy and legal requirements.
Often, FRA varies in some respects from the RSAC recommendation in
developing the actual regulatory proposal. If the working group or the
RSAC is unable to reach consensus on recommendations for action, FRA
moves ahead to resolve the issue through traditional rulemaking
proceedings.
On June 24, 1997, FRA presented the subject of locomotive cab
working conditions to the RSAC. The purpose of this task was defined as
follows: ``To safeguard the health of locomotive crews and to promote
the safe operation of trains.'' The RSAC accepted this task (No. 97-2)
and formed a Locomotive Cab Working Conditions Working Group (``Working
Group'').
B. Working Group
Task 97-2 addressed several issues, one of which was noise
exposure. With respect to noise exposure, RSAC asked the Working Group
to complete two items: (1) Revise existing cab noise limits to take
into account current requirements of the OSHA standard, specifically as
it relates to hearing conservation programs, and (2) Continue efforts
to evaluate engineering controls and other measures used to minimize
noise exposure in locomotive cabs.
The Working Group consisted of representatives of the following
organizations, in addition to FRA:
AASHTO
APTA
ASLRRA
AAR
BLET
BMWED*
IBEW
AMTRAK
RSI (formerly Railway Progress Institute)
SMWIA
TWUA
UTU
* Indicates associate membership.
The Working Group's goal was to produce recommendations for
locomotive cab noise exposure standards warranted by an assessment of
available information on hearing loss, hearing conservation programs,
existing federal standards, and occupational injury data. The Working
Group decided that specific expertise would be needed to analyze
pertinent information and so it formed the Noise Task Force.
The Noise Task Force, which was established in September 1997, was
made up of industrial hygiene, safety, engineering, and medical staff
from carriers, labor organizations, and FRA. The Noise Task Force met
regularly over a period of several years to discuss several topics,
including hearing loss and noise exposure among locomotive cab
employees; existing railroad hearing loss prevention programs; OSHA's
occupational noise standards; equipment changes and procedures that
improve noise levels in the cab; hearing testing and training programs;
and noise monitoring.
The Noise Task Force concluded that OSHA's standard for noise was
an appropriate framework and starting point for an update and revision
to FRA's existing noise regulation. The Noise Task Force also
identified several areas where OSHA's regulation might be modified to
create a FRA regulation that could better address the occupational
noise exposure of the rail industry. The Noise Task Force forwarded
these findings to the Working Group.
The Working Group conducted a number of meetings and discussed each
of the matters proposed in the NPRM. FRA has placed the minutes of
these meetings in the docket for this proceeding. Throughout this
preamble, FRA frequently discusses issues that the Noise Task Force and
Working Group raised and views that they shared. FRA discusses these
points to show the origin of certain important issues and the course of
discussion on these issues at the task force and working group levels.
FRA believes that this helps illuminate the facts FRA has weighed in
making its regulatory decisions and the logic behind those decisions.
The reader should keep in mind, of course, that only the full RSAC
makes recommendations to FRA, and it is the consensus recommendation of
the full RSAC on which FRA is acting.
The Working Group, using the preliminary findings of the Noise Task
Force, developed recommendations for reducing the likelihood of hearing
loss for cab employees. In June 2003, the Working Group reached
consensus on recommendations for the proposed rule and forwarded these
recommendations to the RSAC. On June 27, 2003, the RSAC accepted these
recommendations, which had been reviewed and accepted by FRA.
On June 23, 2004, FRA published an NPRM containing the
recommendations of the Working Group and the full RSAC. See 69 FR
35146. The NPRM provided for a 90-day comment period and provided
interested parties the opportunity to request a public hearing. The
comment period closed on September 21, 2004. FRA received comments from
approximately 50 interested parties. There were a wide variety of
commenters, including individual locomotive engineers; professional,
scientific, and credentialing associations; congressmen; individual
audiologists; an acoustical consulting firm; a commuter railroad; and a
manufacturing company.
FRA reconvened the Task Force on March 1, 2005 and the Working
Group on March 2-3, 2005 to discuss the comments that FRA received
about the NPRM. The Task Force and the Working Group considered all the
comments and again reached consensus on recommendations for a final
standard. These recommendations were presented to the RSAC and on May
18, 2005, the RSAC accepted these recommendations. The RSAC voted to
forward these recommendations to FRA as the basis for a final
occupational noise standard. FRA has reviewed the RSAC's
recommendations and has adopted the recommendations in this final rule.
FRA has worked closely with the RSAC in the development of its
recommendations and believes that the RSAC effectively addressed
occupational noise exposure for cab employees. FRA has greatly
benefitted from the open, informed exchange of information that has
taken place during meetings. There is general consensus among labor,
management, and manufacturers concerning the primary principles FRA
sets forth in this final rule. FRA believes that the expertise
possessed by the RSAC representatives enhances the value of the
recommendations, and FRA has made every effort to incorporate them in
this rule.
III. FRA's Noise Standard
A. FRA's Approach to Cab Noise
As OSHA governs workplace safety, and OSHA has already issued
regulations in the area of occupational noise, FRA used OSHA's standard
as a foundation for its own standard. However, there are many areas in
which the OSHA standard differs from the FRA standard. The purpose of
this
[[Page 63071]]
rulemaking is to adapt the OSHA rule to the unique circumstances of the
railroad environment. The working environment for railroad cab
employees is quite different than that of the typical American worker.
Also, the noise exposure of railroad employees is not uniform
throughout the industry. Railroad employees may work in a different
location each day, i.e., a different locomotive and/or a different
route. Employee assignments and actual time in the cab may vary
significantly during a typical week. The level of noise in any
individual locomotive cab will vary greatly, depending on the
locomotive model, locomotive age, condition of the locomotive, length
of the route, traffic on the route, number of highway-rail grade
crossings on the route, physical characteristics of the route, weather
conditions during the run, and any one or more of several other
factors. FRA's rule has taken into account these unique characteristics
of the railroad operating environment and has modified OSHA's standard
to fit the railroad industry.
Since FRA's rule is based on OSHA's rule, it is helpful to review
OSHA's standard before explaining FRA's standard. OSHA's noise standard
limits employee noise exposure to an 8-hour TWA of 90 dB(A). OSHA
identifies a hierarchy of controls that should be used to limit noise
exposure. If employee noise exposure exceeds the permissible exposure
level, the employer must reduce the exposure (so that it is within
permissible exposure limits) through the use of feasible engineering
controls, administrative controls, or a combination of both. Where such
controls cannot reduce employee exposure to permissible limits,
employers are to supplement the engineering and administrative controls
with hearing protection. The OSHA noise standard also requires that the
employer administer a continuing effective hearing conservation program
for employees who are exposed to levels that equal or exceed an 8-hour
TWA of 85 dB(A).
OSHA places engineering and administrative controls at the top of
its hierarchy and takes the position that these controls are the best
method for controlling noise exposure. These controls reduce employee
exposure to hazardous noise levels by eliminating (or at least
reducing) the noise at the source, by modifying the noise path or by
decreasing employee exposure time to the noise source. Engineering
controls are generally understood to be the modification or replacement
of equipment or any other related physical change at the noise source
or along the transmission path that reduces the noise level at the
employee's ear (not including hearing protectors). They include such
changes as the re-design of machinery or the use of different tools.
Administrative controls involve efforts to limit worker noise exposure
by modifying work schedules, work locations, or the operating schedule
of noisy machinery. An example of Administrative Controls would be
schedules for rotation of employees from tasks that are near noisy
machinery to quieter areas. The objective is employee exposures with
lower time weighted average levels of exposure. FRA's standard on
locomotive cab noise is based very heavily on OSHA's standard. In this
final rule, FRA requires railroads to limit employee noise exposure to
an 8-hour TWA of 90 dB(A).\20\ Also, FRA requires railroads to
implement a hearing conservation program for those employees who are
exposed to noise levels that equal or exceed an 8-hour TWA of 85 dB(A).
---------------------------------------------------------------------------
\20\ For a complete list of the permissible noise exposures, see
Table 1 in Sec. 227.103. According to Table 1, railroads must limit
employee noise exposure to 85 dB(A) as a 16-hour TWA, 87 dB(A) as a
12-hour TWA, 90 dB(A) as an 8-hour TWA, and so on.
---------------------------------------------------------------------------
FRA's doubling, or exchange, rate is 5 dB(A). FRA's decision to use
a 5 dB doubling rate is notable, because a 5 dB doubling rate is
different than the scientific principle for a doubling rate.
Technically, an increase of 3 dB represents a doubling of sound
energy.\21\ In making its decision, FRA considered a doubling rate of 3
dB, 4 dB, and 5 dB. FRA ultimately decided on a 5 dB doubling rate.
NIOSH recommends a 3 dB doubling rate, the Air Force uses a 3 dB
doubling rate, and OSHA and MSHA use a 5 dB doubling rate.
---------------------------------------------------------------------------
\21\ See discussion in Sec. IV(A) of the background section.
---------------------------------------------------------------------------
In its 1999 rulemaking on occupational noise for miners, MSHA faced
a similar decision, choosing between a 3 dB or 5 dB exchange rate. MSHA
conducted a study and found that the exchange rate substantially
affects the measured noise exposure; nonetheless, MSHA retained the 5
dB exchange rate because of feasibility concerns.\22\ In its final
rule, MSHA concluded that
---------------------------------------------------------------------------
\22\ 64 FR 49548, 49588-49589 (September 13, 1999).
it would be extremely difficult and prohibitively expensive for
the mining industry to comply with the existing permissible exposure
level with a 3 dB exchange rate, using currently available
engineering and administrative noise controls. MSHA therefore cannot
demonstrate that implementation of such an exchange rate would be
feasible. However, [MSHA] will continue to monitor the feasibility
of adopting a 3 dB exchange rate. 64 FR 49548, 49589 (September 13,
---------------------------------------------------------------------------
1999).
FRA, like MSHA, recognizes that the cost and feasibility of a 3 dB
exchange rate is prohibitive. Furthermore, there was a consensus
decision of the RSAC Working Group that 5 dB is most appropriate.
Taking all of those factors into account, FRA has decided to use a
doubling rate of 5 dB. Thus, a 5 dB increase in the time weighted
average level reduces the permitted time of exposure duration by half.
FRA recognizes the same noise control measures as OSHA (i.e.,
engineering controls, administrative controls, and hearing protection);
however, FRA uses different terms to describe some of those controls.
OSHA uses the term, ``administrative controls,'' while FRA uses the
term ``noise operational controls.'' These two terms are the functional
equivalent. Also, OSHA uses the term ``engineering controls,'' while
FRA uses no equivalent term--FRA instead describes the specific actions
which railroads and manufacturers must take when designing, building,
and maintaining locomotives.
FRA's overall approach toward controls differs from that of OSHA.
FRA does not explicitly adopt OSHA's hierarchy of controls. As
explained above, OSHA places controls in a hierarchy and mandates their
use according to that hierarchy. FRA has no such hierarchy. Rather, FRA
has specific requirements that railroads must satisfy. FRA requires
railroads to obtain and maintain locomotives built to meet the
performance standard for maximum noise level in the cab defined by the
standards in Sec. 229.121. (This is somewhat equivalent to OSHA's
``engineering controls''). FRA mandates that railroads require
employees to use hearing protectors when employees are exposed to noise
levels that exceed an 8 hour-TWA of 90 dB(A). (This is equivalent to
OSHA's hearing protector requirement). And, FRA gives railroads the
option of using noise operational controls when employees are exposed
to noise levels that exceed 90 dB(A) as an 8 hour-TWA. (This is
equivalent to OSHA's ``administrative controls''). It is very important
to note that FRA does not require the use of noise operational
controls. Thus, when a railroad learns that an employee is exposed to
noise levels that exceed an 8-hour TWA of 90 dB(A), the railroad must
provide the employee with HP, but need only consider the use of noise
operational controls. Using noise operational controls as an option
rather than a requirement was done in recognition of
[[Page 63072]]
the nature of railroad operations and the impact of other federal laws,
specifically the Hours of Service law. This law limits crew working
hours to 12 hours, thus also permitting work shifts of up to 12 hours.
Given the fact that administrative controls use periods of time removed
from exposure to reduce the dose, and the fact that the only way to be
removed from exposure on a train (except passenger trains) would be to
leave the train, mandating administrative controls to reduce noise
exposure would have the effect of changing the operating practices of
the entire industry without regard to other issues such as where and
how to get the exposed crews off the trains and how to get replacement
crews on them.
The RSAC Working Group spent a great deal of time discussing
options and developing the recommended requirements for Sec. 229.121
and thus a discussion is warranted here. An Engineering Controls Task
Force, a subgroup of the Noise Task Force, met to discuss the
feasibility of engineering controls. Among its findings, the group
identified certain items that might help reduce noise exposure in the
locomotive cab. In identifying these items, FRA has given serious
consideration to those items which are feasible and those items which
are not feasible.
In developing the proposed and final rules, the RSAC Working Group
participants noted that since the early 1990s, the industry has taken
delivery of thousands of newer locomotives engineered to reduce noise
levels. Original equipment manufacturers used a variety of strategies
to sharply reduce the portion of noise dose derived from the prime
mover and to filter out other noise sources. The cabs of most of these
locomotives provide an environment where, for the great majority of
operating circumstances, employees will not experience 8 hour TWA
exposures approaching 90 dB(A), and under most circumstances, exposures
are not expected to reach the action level. Railroads have also
specified placement of horns in the center of the locomotive, rather
than immediately over the cab, further reducing noise levels
experienced by employees. Finally, as noted below, the practice of
venting the airbrake system into the cab has been largely abandoned.
Accordingly, the challenges in this proceeding have principally to
do with management of noise exposure in older locomotives, at least
minimal standardization of hearing conservation programs that have
grown up without regulation, ensuring the progress in engineering of
locomotives is maintained, and addressing the needs of employees of
smaller railroads by providing basic guidance regarding noise
monitoring, hearing conservation, training, and recordkeeping. To the
extent that many comments filed by non-railroad parties assume a much
more dire situation, those comments have missed the mark and, in many
cases, have called for measures not warranted by the facts.
The RSAC Working Group also found that certain maintenance tasks--
e.g., repair, replacement, or installation of cab insulation, door
seals, window seals, weatherstripping, and electrical cabinet
insulation and seals--can help reduce in-cab noise levels. The group
also discussed other engineering controls and maintenance items which
have been shown to reduce noise exposure in the cab, e.g., venting
piping for air brake exhaust and power control devices out and under
the locomotive; using air cooling devices so that windows can be
closed; and using noise-dampening window glass which limits the
penetration of noise and thereby limits the contribution of outside
noise. In addition, the group discussed the location of locomotive
horns and agreed that relocation of the horn to the center position had
reduced crew noise exposure.
FRA recognizes that there are many benefits to using engineering
and maintenance controls. First, they do not interfere with crew and
radio communication, which personal Hearing Protection (HP) devices can
do. HP can interfere with crew and radio communication by blocking out
necessary sounds in addition to unwanted noise. Second, engineering and
maintenance controls do not present the potential hazard of
overprotection that HP may present. Engineering controls block out
noise at its source, or along its transmission path, thus there is no
concern that necessary sounds will be blocked out too. Third,
engineering controls put less burden on the employee and as a result,
are easier for employees to use. With HP, railroads must ensure that
employees are properly trained on the use of the devices, and employees
must ensure that they don and wear the devices properly. Due to the
benefits of engineering controls, FRA did not want to exclude their
use. However, due to burden that it would impose on railroads if there
was a general requirement for the use of engineering controls, FRA did
not include the requirement as found in OSHA's rule. The burden was
recognized when it was made clear by experts in locomotive noise
reduction engineering that imposing the requirement to first use
engineering controls to reduce exposure would require re-engineering
the cab structure, the suspension and other elements of the locomotive
to achieve the required noise reduction at a cost approaching that of
buying a new locomotive. As a compromise, rather than imposing a
general engineering controls requirement on railroads, FRA identified
limited and specific engineering controls--the design and build
requirements in Sec. 229.121(a) and the maintenance requirements in
Sec. 229.121(b)--which railroads must use.
This background section has sought to provide an overview of FRA's
rule, as well as a broad comparison to OSHA's rule. A more thorough
discussion of the differences between OSHA's and FRA's standards is
provided in the Section-by-Section Analysis below.
B. Responsibilities of Railroads and Employees
The primary responsibility for compliance with this regulation lies
with employers, i.e., railroads. As such, railroads have several
enumerated responsibilities. This regulation requires railroads to:
Develop and implement a noise monitoring program; administer a hearing
conservation program; establish and maintain an audiometric testing
program; make audiometric testing available to employees; implement
noise operational controls (if desired); require the use of hearing
protection; make hearing protection available to employees at no cost;
train employees in the use and care of hearing protection; ensure
proper fitting of and supervise the correct use of hearing protection;
give employees the opportunity to select hearing protection from a
variety of suitable hearing protection; evaluate hearing protection
attenuation; initiate and offer a training program, maintain and retain
records; and obtain and maintain locomotives that meet specified
standards for limiting in-cab noise.
The responsibilities of employees derive from those of the
railroad. Employees' responsibilities come from railroad policies,
which are issued pursuant to this regulation. This regulation would
require employees \23\ to: Use their hearing protection when mandated
by the railroad; care for their hearing protection as trained by the
railroad; and complete the training program which is offered by the
railroad. There is one additional obligation for which employees have
[[Page 63073]]
primary responsibility--employees must report for audiometric testing
once every three years. While railroads have an affirmative obligation
to offer testing, employees have an affirmative obligation to report
for testing. Without adequate audiometric testing, a hearing
conservation program will not succeed, and so FRA is identifying an
employee's audiometric testing obligation as a primary responsibility.
---------------------------------------------------------------------------
\23\ In their comments, the AAR pointed out that the preamble
inaccurately used the term ``employers'' in place of ``employees.''
FRA has corrected that typo in this final rule.
---------------------------------------------------------------------------
Because employee responsibilities are, for the most part,
derivative, compliance would generally take place through the railroad
disciplinary process, rather than direct enforcement by FRA. FRA does,
however, recognize one major exception. FRA may assess civil penalties
for a wilful violation \24\ for an employee who does not report for
audiometric testing. Overall, FRA expects that employees will fully
comply with all of their responsibilities. Railroads should perform
required actions, and employees should reciprocate with their
commensurate responsibilities. Railroads should set expectations of
compliance, and employees should meet those expectations of compliance.
---------------------------------------------------------------------------
\24\ Under the railroad safety laws, civil penalties may be
assessed against individuals only for willful violations. See 49
U.S.C. 21304.
---------------------------------------------------------------------------
C. Compliance
FRA's principal method of enforcement will be through audits. With
an industrial hygienist as team leader, an audit team will examine a
railroad's hearing conservation program. The team will examine whether
the railroad is adequately protecting its employees. The team will
speak with the program manager, review records (e.g., noise monitoring
records, audiograms, standard threshold shift records, etc.) and
determine the extent to which the railroad is complying with the
requirements of this regulation. If warranted, FRA will take
enforcement action against the railroad.
In addition, if FRA has reason to believe that certain locomotive
crews are being exposed to high noise doses, FRA inspectors will ride
in the locomotive cab with those crews to measure the sound levels and
determine the crews' exposure. FRA inspectors may also review
maintenance records to determine whether railroads have corrected
defective conditions (e.g., loose windows, deteriorated seals).
Additionally, FRA will investigate employee complaints of excessive
noise.
IV. Summary of Comments
A. In General
Overwhelmingly, the commenters to this rule applauded FRA for
amending its noise standard. They commended FRA for taking the
initiative to prevent noise-related hearing loss among railroad
workers. They also expressed their support for FRA's effort to
establish a uniform noise exposure rule for railroad operating
employees, explaining that a uniform noise standard for the railroad
industry will facilitate understanding of, and compliance with,
regulatory requirements. One commenter was pleased to see that FRA had
addressed both noise control (part 229 requirements) and hearing
conservation (part 227 requirements) in this rule, because, based on
their observations, the most successful hearing loss prevention
programs are those that include both noise control and hearing
conservation components.
The commenters acknowledged that FRA's rule would bring about some
significant improvements in certain areas of hearing conservation and
would significantly improve the health and safety conditions for cab
occupants. However, several commenters felt that the proposed rule
still fell short of an effective hearing conservation program. Chief
among that concern, commenters felt that FRA was relying too heavily on
OSHA's standard. Commenters agreed that OSHA's standard was a good
starting point, but explained that OSHA's standard could use some
updating.
They explained that OSHA's rule is over 20 years old and rooted in
even older data. One commenter explained that the OSHA standard was
based largely on the NIOSH recommended criteria from 1972, which was
based on research in the 1950s and 1960s. The commenters went on to
explain that, since that time, there have been new scientific findings
(including advances in the fields of acoustics and bioacoustics),
technological advancements, and years of field experience. The
commenters felt that FRA should make more efforts to incorporate these
advances into its standard. They explained that their comments tended
to reflect this viewpoint. Along these lines, some commenters
encouraged FRA to consider incorporating components of ``stronger''
standards such as MSHA's recent rule and the 1998 NIOSH revised
criteria.
FRA was very cognizant of these issues in drafting the rule. While
FRA modeled its rule after OSHA's standard and not after an alternative
standard such as NIOSH's 1998 revised criteria, FRA notes that FRA did
not adopt each one of OSHA's provisions without question. FRA
incorporated several new changes into its revised noise standard,
including some changes at this final rule stage. Throughout the
process, FRA has tried to strike a balance between deferring to OSHA,
the lead federal agency in the field of occupational safety and health,
and incorporating changes based on scientific advances, technological
improvements, recognition of some of the unique circumstances present
in the railroad operating environment, and field experiences. FRA
believes that this rule strikes the proper balance at this time.
In the paragraphs below, FRA discusses several overarching
comments. FRA discusses comments specific to the rule text in the
section-by-section analysis.
B. Approaches Other Than the OSHA HCA
FRA modeled this rule after OSHA's Hearing Conservation Amendment
(HCA). Several commenters strongly encouraged FRA to rewrite this rule
based on the 1998 Revised Criteria for a Recommended Standard. They
noted that NIOSH's more stringent standards, such as an exposure limit
of 85 dB(A) or an exchange rate of 3 dB, will better protect railroad
workers by significantly reducing their risk of noise-induced hearing
loss. Once commenter wrote that FRA, by choosing the OSHA model, had
proposed what amounts to a watered down ``hearing loss documentation
program.''
Another commenter, the doseBusters Company,\25\ questioned why FRA
gave little ``consideration'' to other prevention strategies. The
doseBusters Company argued that OSHA's HCA is a flawed approach to the
prevention of hearing loss and cited several reasons why it believes
that FRA should have considered other prevention strategies: (1) The
HCA is based on information, analyses, thinking, and technology that is
25 years old; (2) At the time of its adoption, the HCA represented a
compromised approach; and (3) The prescriptive approach of the HCA may
preclude more effective and/or conservative alternatives and stifle
future innovation in prevention efforts.
---------------------------------------------------------------------------
\25\ FRA notes that the doseBusters Company Web site no longer
exists and that FRA has been unable to find the doseBusters Company
through any other means on the Internet.
---------------------------------------------------------------------------
The doseBusters Company suggested that FRA provide a performance-
oriented framework for the prevention
[[Page 63074]]
of noise-induced hearing loss by either adopting, or at least allowing,
alternative strategies. As one of those alternate strategies, the
doseBusters Company advocated for its own solution--a program of
continuous monitoring using a proprietary device that also serves as a
hearing protector. The Exposure Smart Protector (ESP) system
simultaneously measures a workers's actual noise exposure and provides
protection to the worker. This allows the employer to routinely
determine the efficacy of the personal HP for individual users in real
workplaces. It also provides the employee with individual feedback on
his or her own daily noise exposure.
After discussion with the RSAC Working Group, FRA decided that it
would not specify such alternate prevention strategies and that it
would instead continue to model its rule after OSHA's HCA. FRA has
chosen to follow OSHA's lead in this matter, because OSHA is the lead
agency in the field of occupational safety and health. Presumably OSHA
used its expertise and resources to determine that the HCA is the most
appropriate method for hearing conservation. Moreover, the HCA approach
is a proven and effective method in the work place environment.
With respect to the doseBuster Company's ESP System, FRA is unaware
of any peer review or other scientific evaluation of that approach. As
the doseBuster Company pointed out, the approach is still undergoing
testing and review. In addition, there are several fundamental issues
that the doseBusters Company did not address and would need to be
addressed before FRA could employ this alternate prevention strategy.
Among those issues are: Under what circumstances does the railroad
decide to equip the employees with these devices? Should the railroad
equip all potentially exposed employees or only a predefined group?
What criteria would the railroad use to identify the predefined group?
Furthermore, these devices have the potential to create an unsafe
operating environment. Railroad employees need to focus their attention
on their jobs and the safe operation of trains. These devices, which
depend on significant employee attention, would prevent employees from
focusing all their attention on their jobs. Finally, FRA does not
believe it is appropriate to identify a single commercial product as a
means of meeting the requirements of the rule. This is of even greater
concern given that the use of the ESP devices would impose a
significant, increased burden on railroads in complying with other
requirements of the rule (i.e., noise exposure monitoring and the
associated recordkeeping requirements). While the doseBuster Company's
concept is interesting, FRA does not believe that the
