Combustible Dust, 54334-54347 [E9-25075]
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Federal Register / Vol. 74, No. 202 / Wednesday, October 21, 2009 / Proposed Rules
DEPARTMENT OF LABOR
Occupational Safety and Health
Administration
29 CFR Part 1910
[Docket No. OSHA–2009–0023]
RIN 1218–AC41
Combustible Dust
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AGENCY: Occupational Safety and Health
Administration (OSHA), Labor.
ACTION: Advance notice of proposed
rulemaking.
SUMMARY: In this advance notice of
proposed rulemaking (ANPR), OSHA is
requesting comments, including data
and other information, on issues related
to the hazards of combustible dust in
the workplace. For the purposes of this
notice, the term ‘‘combustible dust’’
includes all combustible particulate
solids of any size, shape, or chemical
composition that could present a fire or
deflagration hazard when suspended in
air or other oxidizing medium. OSHA
plans to use the information received in
response to this notice in developing a
proposed standard for combustible dust.
DATES: Submit comments in response to
this ANPR by January 19, 2010.
ADDRESSES: Submit comments as
follows:
• Electronic. Submit comments
electronically at https://
www.regulations.gov, which is the
Federal eRulemaking Portal. Follow the
instructions online for submitting
comments.
• Facsimile. Commenters may fax
submissions, including attachments,
that are no longer than 10 pages in
length to the OSHA Docket Office at
(202) 693–1648; OSHA does not require
hard copies of these documents.
Commenters must submit lengthy
attachments that supplement these
documents (e.g., studies, journal
articles), in triplicate hard copy, to the
OSHA Docket Office, Technical Data
Center, Room N–2625, U.S. Department
of Labor, 200 Constitution Ave., NW.,
Washington, DC 20210. These
attachments must clearly identify the
commenter’s name, date, subject, and
docket number (i.e., OSHA–2009–0023)
so the Agency can attach them to the
appropriate comments.
• Regular mail, express delivery,
hand (courier) delivery, and messenger
service. Submit three copies of
comments and any additional material
(e.g., studies, journal articles) to the
OSHA Docket Office, Docket No.
OSHA–2009–0023 (or Regulation
Identifier Number (RIN) 1218–AC41),
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Technical Data Center, Room N–2625,
U.S. Department of Labor, 200
Constitution Avenue, NW., Washington,
DC 20210; telephone (202) 693–2350
(TDY number: (877) 889–5627). Note
that security procedures may result in
significant delays in receiving
comments and other written materials
by regular mail. Contact the OSHA
Docket Office for information about
security procedures concerning delivery
of materials by express delivery, hand
delivery, and messenger service. The
hours of operation for the OSHA Docket
Office are 8:15 a.m.–4:45 p.m., e.t.
• Instructions. All submissions must
include the Agency name and the OSHA
docket number or RIN for this
rulemaking (i.e., OSHA Docket No.
OSHA–2009–0023 or RIN 1218–AC41).
Submissions, including any personal
information provided, are placed in the
public docket without change and will
be available online at https://
www.regulations.gov. Therefore, the
Agency cautions commenters about
submitting statements they do not want
made available to the public, or
submitting comments that contain
personal information (either about
themselves or others) such as Social
Security numbers, birth dates, and
medical data.
• Docket: To read or download
submissions or other material in the
docket, go to https://www.regulations.gov
or the OSHA Docket Office at the
address above. While all documents in
the docket are listed in the https://
www.regulations.gov index, some
information (e.g., copyrighted material)
is not publicly available to read or
download through this Web site. All
submissions, including copyrighted
material, are available for inspection
and copying at the OSHA Docket Office.
Contact the OSHA Docket Office for
assistance in locating docket
submissions.
FOR FURTHER INFORMATION CONTACT:
Information regarding this ANPR is
available from the following sources:
• Press inquiries. Contact Jennifer
Ashley, Director, OSHA Office of
Communications, Room N–3647, U.S.
Department of Labor, 200 Constitution
Avenue, NW., Washington, DC 20210;
telephone: (202) 693–1999.
• General and technical information.
Contact Don Pittenger, Director, Office
of Safety Systems, OSHA Directorate of
Standards and Guidance, Room N–3718,
U.S. Department of Labor, 200
Constitution Avenue, NW., Washington,
DC 20210; telephone: (202) 693–2255;
fax: (202) 693–1663.
• Copies of this Federal Register
notice. Electronic copies are available at
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https://www.regulations.gov. This
Federal Register notice, as well as news
releases and other relevant information,
also are available at OSHA’s Web page
at https://www.osha.gov.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Background
A. Introduction
B. Dust Explosions in Grain Handling
Facilities
C. Dust Explosions in Other Industries
D. CSB Combustible Dust Study
E. Congressional Response
F. Existing OSHA Standards
G. Consensus and Industry Standards
H. National Emphasis Program Analysis
I. Regulatory Issues
II. Request for Data, Information, and
Comments
A. Industry Background
B. Definition of Combustible Dust
C. Hazard Recognition
D. Hazard Assessment
E. Hazard Communication and Training
F. Consensus, Industry, and Insurance
Standards
G. State and Local Codes
H. Engineering Controls
I. Administrative Controls
J. Emergency Response
K. Investigation of Incidents
L. Regulatory Approach
M. Economic Impacts and Benefits
N. Impacts on Small Entities
O. Compliance Assistance
III. Public Participation
IV. Authority and Signature
I. Background
A. Introduction
The hazards of combustible dust
encompass a wide array of materials,
industries, and processes. Any
combustible material can burn rapidly
when in a finely divided form. Materials
that may form combustible dust include,
but are not limited to, wood, coal,
plastics, biosolids, candy, sugar, spice,
starch, flour, feed, grain, fertilizer,
tobacco, paper, soap, rubber, drugs,
dried blood, dyes, certain textiles, and
metals (such as aluminum and
magnesium).
Five elements are needed for a
combustible dust explosion to occur.
The first three elements are those
necessary for a fire: Fuel, heat, and an
oxidizer. These three elements form the
‘‘fire triangle,’’ in which combustible
dust is the fuel, heat is provided by any
source of ignition, and oxygen is present
in air and in oxidizers.
The fourth element is dispersal of
dust into a cloud of the proper
concentration. These four conditions are
necessary for a deflagration, which is
violent combustion accompanied by a
pressure wave. The combustion is rapid,
but propagates at a speed less than the
speed of sound.
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Federal Register / Vol. 74, No. 202 / Wednesday, October 21, 2009 / Proposed Rules
A fifth element, confinement, is
necessary for an explosion. Confinement
can be any enclosure—including, but
not limited to, a building, room, duct, or
processing and storage equipment. An
explosion occurs when the pressure
developed by a deflagration bursts or
ruptures the enclosure. Together, these
five elements (fuel, heat, an oxidizer,
dispersion and confinement) are known
as the ‘‘dust explosion pentagon.’’ The
minimum explosible concentration is
the lowest concentration of combustible
dust suspended in air that will support
a deflagration.1
Secondary explosions or deflagrations
occur when pressure waves from an
initial (or primary) deflagration or
explosion cause dispersal and ignition
of combustible dust that has
accumulated on surfaces. Secondary
explosions are often more devastating
than primary explosions due to the
increased amount of fuel and the size of
the ignition source (i.e., the initial
event). In some cases, explosions
continue to cascade throughout an area
or facility.
OSHA is developing a standard that
will comprehensively address the fire
and explosion hazards of combustible
dust. The Agency’s existing standards
address some, but not all, of the
elements needed to protect workers
from these hazards. For example,
OSHA’s general industry housekeeping
standard (29 CFR 1910.22(a)(1))
addresses accumulations of dust,
including dusts that may be
combustible, and the general industry
electrical standard (29 CFR 1910,
subpart S) helps to control electrical
ignition hazards. When workers are
exposed to hazards not currently
addressed in the OSHA standards,
employers are cited under the General
Duty Clause (GDC) specified by Section
5(a)(1) of the Occupational Safety and
Health Act of 1970 (OSH Act; see 29
U.S.C. 654). The information requested
in this notice will help the Agency
develop a standard that would better
protect workers from the hazards of
combustible dust.
Industries that may have combustible
dust hazards include, among others:
Agriculture, animal food manufacturing,
grain handling, food manufacturing,
wood product manufacturing, chemical
manufacturing, textile manufacturing,
furniture manufacturing, metal
processing, fabricated metal products
and machinery manufacturing, pesticide
manufacturing, pharmaceutical
manufacturing, tire manufacturing,
production of rubber and plastics,
plastics and rubber products
manufacturing, recycling, wastewater
treatment, and coal handling and
processing. To determine which
industries may be affected by an OSHA
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standard regulating combustible dust
hazards, OSHA identified industries
that had previous incidents relating to
combustible dust. Table 1 summarizes
this data. Incidents were identified
using data from the U.S. Chemical
Safety and Hazard Investigation Board
(CSB) involving incidents occurring
from 1980 to 2005. For incidents
between 2006 and 2008, OSHA used
reports gathered by the Web site
‘‘dustexplosions.blogspot.com.’’ Using
these two data sources, OSHA assigned
a North American Industry
Classification System (NAICS) code to
each incident using the available
information. The groups of NAICS codes
in this table were determined by
combining similar industries together
that had explosions in the past.
Incidents having insufficient
information to assign a NAICS code to
the affected establishment were
classified as ‘‘unknown.’’ OSHA’s
preliminary analyses show that, in
industries for which combustible dust
fires or explosions have occurred, there
are 426,000 establishments employing
16 million workers (see Table 1). The
table does not show that these
industries include over 333,000 small
businesses with 6.5 million employees.
It is possible that some establishments
in these industries do not have
significant dust hazards.
TABLE 1—INDUSTRIES HAVING AT LEAST ONE RECORDED COMBUSTIBLE DUST INCIDENT REPORTED SINCE 1980,
ACCORDING TO OSHA RESEARCH
Incidents
(1980–
2008) 2
Name of industry 1
115111 .........
221000 .........
311000 .........
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NAICS
group 1
Cotton Ginning .......................................................................................
Utilities, Electric Power Gen ..................................................................
Food Manufacturing (Except 311100, 311200, 311300, 311800,
311900).
Animal Food Mfg. (Except 311119) .......................................................
Other Animal Food Mfg .........................................................................
Grain and Oilseed Milling (Except 311221 and 311230) ......................
Wet Corn Milling ....................................................................................
Breakfast Cereal Mfg .............................................................................
Sugar & Confectionary Product Mfg. (Except 311313) .........................
Beet Sugar Manufacturing .....................................................................
Bakeries .................................................................................................
Other Food Manufacturing .....................................................................
Beverage and Tobacco Product Mfg. (Except 312110) ........................
Textile Mills ............................................................................................
Textile Product Mills ..............................................................................
Wood Product Mfg. (Except 321113 and 321219) ................................
Sawmills .................................................................................................
Reconstituted Wood Prod. Mfg .............................................................
Paper Manufacturing .............................................................................
Petroleum & Coal Products Mfg ............................................................
Chemical Mfg. (Except 325188 and 325410) ........................................
Basic Inorganic Chemical Mfg ...............................................................
Pharmaceutical & Medicine Mfg ............................................................
Plastics and Rubber Products Mfg. (Except 326211) ...........................
311100
311119
311200
311221
311230
311300
311313
311800
311900
312000
313000
314000
321000
321113
321219
322000
324000
325000
325188
325410
326000
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
.........
1 The terms ‘‘deflagration’’, ‘‘explosion’’, and
‘‘minimum explosible concentration’’ are used in
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this notice as defined in NFPA 654 (2006 edition)
for combustible dust only. This notice does not
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Firms 3
Establishments 3
Employees 3
1
28
8
260
6,554
5,820
279
17,174
7,786
2,654
614,427
834,277
2
5
5
21
6
5
6
4
8
4
11
2
28
7
14
18
1
31
11
8
17
176
1,046
392
33
43
1,581
10
9,301
2,768
2,193
2,770
6,456
11,192
3,398
167
3,269
1,166
7,737
390
1,481
11,365
248
1,549
658
65
66
1,700
33
10,072
3,205
2,379
3,243
6,726
12,749
3,731
255
5,139
2,448
10,749
612
1,886
11,454
16,202
31,971
31,439
8,875
13,410
66,341
6,263
288,393
161,567
83,531
187,766
155,586
449,650
104,666
22,190
441,430
102,997
514,732
40,589
249,743
846,857
address the terms ‘‘detonation’’ or ‘‘explosion’’ as
they relate to materials classified as explosives.
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Federal Register / Vol. 74, No. 202 / Wednesday, October 21, 2009 / Proposed Rules
TABLE 1—INDUSTRIES HAVING AT LEAST ONE RECORDED COMBUSTIBLE DUST INCIDENT REPORTED SINCE 1980,
ACCORDING TO OSHA RESEARCH—Continued
Incidents
(1980–
2008) 2
NAICS
group 1
Name of industry 1
326211 .........
327000 .........
331000 .........
332000 .........
333000 .........
334000 .........
336000 .........
337000 .........
337100 .........
339000 .........
423000 .........
488000 .........
493000 .........
511000 .........
561210 .........
562000 .........
Other ............
Tire Manufacturing .................................................................................
Nonmetallic Mineral Prod. Mfg ..............................................................
Primary Metal Manufacturing .................................................................
Fabricated Metal Product Mfg ...............................................................
Machinery Manufacturing ......................................................................
Computer, Electronic Equip. Mfg ...........................................................
Transportation Equipment Mfg ..............................................................
Furniture & Related Product Mfg. (Except 337100) ..............................
Household & Institutional Furniture, Cabinet Mfg .................................
Miscellaneous Manufacturing ................................................................
Merchant Wholesalers (423110, 423210, 423310, 423930) .................
Support Activities for Transportation .....................................................
Warehousing and Storage .....................................................................
Publishing Industries ..............................................................................
Facilities Support Services ....................................................................
Waste Management and Remediation Services ...................................
Unknown Industry Category ..................................................................
Total .......................................................................................................
Firms 3
Establishments 3
Employees 3
5
4
32
27
7
2
16
2
16
7
4
1
1
1
1
3
42
91
11,332
4,310
54,969
23,842
12,733
10,552
4,779
15,878
29,925
22,669
29,416
7,176
22,874
1,680
16,189
....................
138
17,350
5,285
59,064
26,317
14,548
12,707
5,148
16,301
31,239
27,704
37,083
13,849
31,821
4,115
19,919
....................
53,985
482,459
449,914
1,563,713
1,126,671
1,057,485
1,622,527
188,908
354,341
686,096
432,265
579,589
595,325
1,039,739
164,637
345,334
....................
422
347,983
426,794
16,018,544
Sources:
1 North American Industry Classification System, United States, 2008.
2 Incident data from U.S. Chemical Safety and Hazard Investigation Board and https://dustexplosions.blogspot.com.
3 County Business Patterns 2006—U.S. Census Bureau.
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B. Dust Explosions in Grain Handling
Facilities
In the 1970s, agriculture and food
processing industries experienced
several combustible dust explosions. A
1977 grain-dust explosion in Westwago,
Louisiana, killed 36 workers. It remains
the deadliest grain-dust explosion of the
modern era. Five days later, another
grain-dust explosion in Galveston,
Texas, caused the deaths of 9 workers
and injured 34 others.2 As a result of
these and other grain-dust explosions in
the 1970s, OSHA issued a document
entitled ‘‘Grain Elevator Industry
Hazard Alert,’’ which provided
employers, workers, and other officials
with information concerning the
hazards and safe handling of grain.
Later in the 1970s, the Agency
initiated rulemaking to address the
problem of grain-dust explosions. On
December 31, 1987, after extensive
public comment on its proposed rule
and several public hearings, OSHA
published its final standard on Grain
handling facilities, 29 CFR 1910.272 (52
FR 44592). In its Combustible Dust
Hazard Study of November 2006
(discussed further in Section 1(D) of this
notice), the U.S. Chemical Safety and
Hazard Investigation Board stated:
‘‘OSHA’s Grain handling facilities
standard provides a model for OSHA
action that has proven effective in
reducing catastrophic dust explosions in
the grain industry.’’ 3
During a review of the Grain handling
facilities standard in 2003, OSHA
received comments from union
representatives claiming that, since its
promulgation, grain explosions were
down 42 percent, and injuries and
deaths from grain explosions were
reduced by 60 percent and 70 percent
respectively.4 Figure 1 shows the
number of grain-dust explosions per
year since 1978. For the ten years prior
to the standard (1978–1987), the average
number of explosions per year was 20.5.
This average decreased to 10.3
explosions per year from 1988 to 1997
and further decreased to 6.3 per year
from 1998 to 2007. OSHA gathered this
data from the Regulatory Review of
OSHA’s Grain Handling Standard,5
Kansas State University in cooperation
with USDA Federal Grain Inspection
Service,6 and USDA Grain Inspection,
Packers, and Stockyards
Administration.7
2 National Academy of Science, International
Symposium on Grain Elevator Explosions, July 11–
12, 1978, National Materials Advisory Board
Committee on Evaluation of Industrial Hazards.
3 U.S. Chemical Safety and Hazard Investigation
Board Investigation Report No. 2006–H–1,
Combustible Dust Hazard Study; November 2006,
page 67.
4 Regulatory Review of OSHA’s Grain Handling
Standard [29 CFR 1910.272], February 2003.
5 Regulatory Review of OSHA’s Grain Handling
Standard [29 CFR 1910.272], February 2003.
6 Kansas State University, in cooperation with
USDA Federal Grain Inspection Service, available
online at: https://www.oznet.ksu.edu/pr_histpubs/
Dust_Exp.htm.
7 USDA Grain Inspection, Packers, and
Stockyards Administration, personal e-mail
communication from USDA to OSHA, Jul 10, 2009,
with attachment entitled, ‘‘Explosion Data.’’
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C. Dust Explosions in Other Industries
The flammability and explosiveness
of various types of organic and
inorganic dusts has been recognized for
well over a century. The devastating
effects of secondary explosions resulting
from accumulated dust have also been
well documented, particularly since the
early years of the 20th century; the
hazards of some dusts, particularly coal
dust, mineral dusts, and flour, were
recognized many years before the 20th
century. However, no national
organizations focused on the hazards of
combustible dusts until the National
Fire Protection Association (NFPA)
established a committee to do so in
1922. The NFPA’s work resulted in a
wealth of knowledge about the
prevention and control of dustexplosion hazards in material handling
and manufacturing processes. In 1923,
NFPA published the first national
consensus standard to address the
prevention of dust explosions in grain
terminals and flour mills.8
Over the past 15 years, a number of
industries have experienced serious
dust explosions, causing loss of life and
injuries, as well as property damage.
The first of these incidents, an
explosion and fire in a textile factory in
8 Cashdollar, K. L., & Hertzberg, M., eds (1987)
Industrial Dust Explosions, ASTM International,
U.S., p. 345.
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Methuen, Massachusetts in 1995,
injured 37 people and destroyed several
large buildings.9 After a detailed
investigation of this incident, OSHA
issued a Hazard Information Bulletin in
1998 for the textile industry.
In 1999, an automotive plant near
Dearborn, Michigan experienced an
explosion in one of the boilers in its
power plant. Analysis of the explosion
indicated that the initial boiler
explosion may have caused
accumulated coal dust on plant surfaces
to become airborne, fueling a secondary
explosion that destroyed part of the
facility. Six workers were killed and 36
were injured.10
In the same year, there was an
explosion at a foundry in Springfield,
Massachusetts, involving powdered
phenolic resin in the iron castings
manufacturing process. This explosion
killed three workers and injured nine.
Investigators found heavy resin deposits
in ducts and other surfaces. From this
finding, they concluded that a primary
explosion in a dust extraction duct had
dispersed the settled dust, and that the
9 U.S. Fire Administration Technical Report #110,
Manufacturing Mill Fire, Methuen, MA, December
11, 1995.
10 Michigan Department of Energy, Labor &
Economic Growth, CIS Reaches Historic Settlement
Agreement with Ford and UAW, 1999 available
online: https://www.michigan.gov/dleg/0,1607,7154-10573_11472–52301-,00.html.
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dispersed dust then fueled secondary
explosions in the facility.11
A rubber-dust explosion at a rubber
recycling plant in Vicksburg,
Mississippi in 2002, resulted in five
fatalities and seven injuries. Part of the
recycling process involved grinding
rubber tires; the grinding process
produced rubber dust, which
accumulated on building surfaces and
in a product bagging bin that was not
equipped with explosion vents. A fire
started on the roof of the plant. When
it spread to the bagging bin, it dispersed
the layers of dust in the bin and on the
surrounding surfaces, fueling an
explosion.12
A massive explosion in 2003 at a
pharmaceuticals device manufacturing
facility in Kinston, North Carolina,
injured 38 workers and killed 6. In a
process in which rubber strips were
dipped into a polyethylene slurry, fans
were used to help dry the coated rubber,
causing fine polyethylene powder to be
disbursed. Employees diligently cleaned
the visible areas of the process room;
however, most of the employees were
unaware that combustible polyethylene
11 U.S. Department of Labor (USDOL), 1999. Joint
Foundry Explosion Investigation Team Report, Jahn
Foundry Corporation, Springfield, MA, February
25, 1999.
12 OSHA, 2002, Region 4 Report on Explosion at
Rouse Polymerics, U.S. Department of Labor.
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dust was accumulating in the enclosed
space above the suspended ceiling,
carried there by the building ventilation
system. Due to the extensive damage to
the facility, and the deaths of potential
witnesses, investigators were unable to
definitively determine the ignition
source or the method of dust
dispersal.13
That same year, phenolic resin again
fueled a fatal dust explosion, this time
in an acoustic insulation manufacturing
facility in Corbin, Kentucky. As workers
were cleaning fugitive dust
accumulations with compressed air, a
cloud of phenolic resin formed near a
malfunctioning appliance, which likely
ignited the cloud of dust. The initial
deflagration dispersed large quantities
of combustible dust that had
accumulated on surfaces throughout the
facility. The resulting dust clouds fueled
several secondary explosions. The
building was destroyed, 7 workers were
killed, and 37 were injured.14
Even finely divided metals can cause
dust explosions. Again in 2003, one
worker was killed and several injured in
an aluminum dust explosion at a wheel
manufacturing facility. At the point in
the process in which scrap aluminum
was reduced to small chips, aluminum
particles were drawn into a dust
collector. An initial explosion in the
dust collector spread through the
ventilation system, causing a secondary
explosion involving the dust
accumulated on overhead beams, ducts,
and other structures.15
As a result of this series of incidents
in 2003, OSHA produced a Safety and
Health Information Bulletin (SHIB),
Combustible Dust in Industry:
Preventing and Mitigating the Effects of
Fire and Explosions. This widely
disseminated guidance document
provided employers and workers with
information on combustible dust
explosions, including mitigation. It
contains references to both the
applicable OSHA standards and the
related industry consensus standards.
However, incidents continued to occur
despite the availability of these
standards and the guidance in the SHIB.
In early 2008, a catastrophic incident
at a sugar refinery in Port Wentworth,
Georgia, killed 14 workers and seriously
injured 36 others. The CSB
13 Investigation
Report, Dust Explosion, West
Pharmaceutical Services, Inc., U.S. Chemical Safety
and Hazard Investigation Board (CSB), September
2004.
14 CSB, 2005, Investigation Report, Combustible
Dust Fire and Explosions, CTA Acoustics, Inc.,
February 2005.
15 CSB, 2003, Investigation Report, Hayes Lemerz
Dust Explosions and Fire, September 2003.
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investigated 16 and determined that an
initial dust explosion occurred in an
enclosed steel belt conveyor below three
105-foot-tall silos, most likely ignited by
an overheated conveyor bearing. Large
quantities of sugar dust that had
accumulated on surfaces throughout the
plant fueled a series of massive
secondary explosions and fires,
destroying much of the facility. The
plant had a history of previous, smaller
initial explosion incidents that did not
result in significant damage or
secondary explosions. The fine OSHA
proposed for this employer is the thirdlargest fine ever proposed for a single
incident.
The sugar plant incident highlighted
a lack of hazard awareness and a failure
to comply with existing Federal
standards and State codes. OSHA took
prompt action to further heighten
awareness of this hazard by producing
additional guidance for employers and
workers, including a Web page, a fact
sheet, and a poster. The Agency mailed
the SHIB directly to 30,000 employers
suspected of having combustible dust
hazards, and also focused enforcement
efforts on sugar plants.
D. CSB Combustible Dust Study
The CSB conducted a study of dust
explosion incidents between 1980 and
2005. The 2006 report from that study
identified 281 incidents that killed 119
workers and injured 718.17 From 2006
through 2008, OSHA has found records
of an additional 16 deaths and 84
injuries; these records are included in
Table 1 above. Among CSB’s findings
and conclusions were the following:
• Many industry and safety
professionals lack awareness of
combustible dust hazards.
• The widely recognized standards of
good engineering practice in the NFPA’s
voluntary consensus standards were not
being followed in many facilities.
• State and local fire codes were
ineffective as a viable mechanism to
reduce dust explosion risks in general
industry nationwide.
• OSHA’s focus has been on
enforcement activities in response to
combustible dust incidents.
• The only comprehensive OSHA
standard that specifically addresses
combustible dust hazards (the 1987
Grain handling facilities standard) has
effectively reduced the risk and
consequences of grain-dust explosions,
16 U.S. Chemical Safety and Hazard Investigation
Board Investigation Report No. 2008–05–1–GA,
Sugar Dust Explosion and Fire; September 2009.
17 U.S. Chemical Safety and Hazard Investigation
Board Investigation Report No. 2006–H–1,
Combustible Dust Hazard Study; November 2006, p.
31.
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and incorporates many of the same
principles that can be found in the
NFPA standards.
The report of CSB’s combustible dust
study also listed five recommendations
for OSHA. This notice addresses the
first of these recommendations:
‘‘Issue a standard designed to prevent
combustible dust fires and explosions in
general industry. Base the standard on
current National Fire Protection
Association (NFPA) dust explosion
standards (including NFPA 654 and
NFPA 484), and include at least
• Hazard assessment,
• engineering controls,
• housekeeping,
• building design,
• explosion protection,
• operating procedures, and
• worker training.’’
The second CSB recommendation
requested that OSHA revise its Hazard
Communication Standard (HCS) (29
CFR 1910.1200) to clarify the coverage
and requirements related to combustible
dust. This recommendation is being
addressed in a separate rulemaking.
The third and fourth CSB
recommendations suggested that OSHA,
respectively, communicate with the
United Nations Economic Commission
for Europe the need to amend the
Globally Harmonized System to address
combustible dust hazards, and provide
combustible dust-related training
through the OSHA Training Institute.
Both of these recommendations have
been accomplished.
The fifth CSB recommendation
suggested that OSHA initiate a Special
Emphasis Program for Combustible
Dust, to include an outreach program
focused on the information in OSHA’s
Safety and Health Information Bulletin,
Combustible Dust in Industry:
Preventing and Mitigating the Effects of
Fire and Explosions. The Agency went
beyond CSB’s recommendation and
implemented a National Emphasis
Program (NEP) to increase OSHA’s
enforcement activities throughout the
country and to focus on specific
industry groups that experienced either
frequent combustible dust incidents or
combustible dust incidents with
catastrophic consequences. The NEP
was launched on October 17, 2007, and
is ongoing. It was revised in 2008 to
more closely focus on sugar plants.
E. Congressional Response
Interest intensified in regulatory
action during the months after the
sugar-plant incident in 2008. Employee
unions expressed support for CSB’s
rulemaking recommendations. On May
1, 2008, the U.S. House of
Representatives introduced a bill
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entitled H.R. 5522, Worker Protection
Against Combustible Dust Explosions
and Fires Act of 2008. This bill directed
OSHA to issue an interim combustible
dust rule and an amendment to the HCS
in 90 days, and a final rule in 18
months. H.R. 5522 was passed by the
House and referred to the Senate.
Two Congressional hearings were
held on H.R. 5522. The first hearing was
held by the House Committee on
Education and Labor on March 12, 2008,
and the second hearing was held by the
Subcommittee on Employment and
Workplace Safety of the Senate Housing,
Education, Labor and Pensions
Committee on July 29, 2008. Assistant
Secretary of Labor Ed Foulke testified
for OSHA at these hearings; also
testifying were representatives of CSB,
NFPA, and the Georgia sugar plant that
sustained the 2008 explosion.
On February 4, 2009, H.R. 849,
Worker Protection Against Combustible
Dust Explosions and Fires Act of 2009,
was introduced into the current session
of Congress. The provisions of this
resolution are the same as H.R. 5522.
F. Existing OSHA Standards
The Agency does not have a single,
comprehensive standard that addresses
combustible dust hazards across all
industries. Current OSHA standards
provide limited protection from dust
hazards in two ways: First, certain
standards address some dust hazards for
specific industries. Among these
standards are the following:
• 29 CFR 1910.261—Pulp, paper, and
paperboard mills.
• 29 CFR 1910.263—Bakery
equipment.
• 29 CFR 1910.265—Sawmills.
• 29 CFR 1910.269—Electric power
generation, transmission, and
distribution.
• 29 CFR 1910.272—Grain handling
facilities.
Second, some general industry
standards address one or more of the
elements that can contribute to dust
explosions, such as ignition sources and
dust accumulations, or the standards
require the communication of
information that employers and workers
need to address dust hazards. Among
these standards are:
• 29 CFR 1910.22(a)—Housekeeping.
• 29 CFR 1910.178—Powered
industrial trucks.
• 29 CFR 1910 Subpart Q—Welding,
Cutting, and Brazing.
• 29 CFR 1910. 269—Electric power
generation, transmission, and
distribution.
• 29 CFR 1910.307—Hazardous
(classified) locations.
• 29 CFR 1910.334(d)—Occasional
use of flammable or ignitable materials.
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• 29 CFR 1910.1200—Hazard
Communication.
As noted earlier, OSHA’s existing
standards for combustible dust do not
provide a comprehensive set of
requirements to fully address all of the
prevention and mitigation methods
specific to combustible dust hazards.
Accordingly, some ignition sources are
specifically covered (e.g., electrical
installations, powered industrial
trucks), while other ignition sources are
not covered (e.g., mechanical sparks,
friction, open flames). Additionally,
OSHA standards address the
accumulation of fugitive dust (i.e., dust
that escapes from equipment or areas
where it is normally present), but do not
include measures that would prevent
the escape of dust in the first place.
Also, many built-in engineering controls
(including the design of facilities,
explosion venting, suppression systems,
and explosion protection systems) are
not addressed in the OSHA standards.
OSHA is asking a series of questions
about the need to address these areas in
a new combustible dust standard to
afford adequate and complete protection
to workers.
G. Consensus and Industry Standards
NFPA issues a number of national
consensus standards that address the
hazards of combustible dust. For
example, NFPA 654, Standard for the
Prevention of Fire and Dust Explosions
from the Manufacturing, Processing,
and Handling of Combustible
Particulate Solids, addresses the
hazards of combustible dust in a general
manner. Specific industries are
excluded from NFPA 654, but are
covered by other NFPA standards,
including NFPA 61, Standard for the
Prevention of Fires and Dust Explosions
in Agricultural and Food Processing
Facilities; NFPA 484, Standard for
Combustible Metals; NFPA 655,
Standard for Prevention of Sulfur Fires
and Explosions; and NFPA 664,
Standard for the Prevention of Fires and
Explosions in Wood Processing and
Woodworking Facilities.
These five NFPA combustible dust
standards have mandatory secondary
references to a large number of other
standards. The 2006 edition of NFPA
654 mandates compliance with 36 other
NFPA standards. These 36 secondary
references, in turn, reference additional
standards. In effect, no one standard
comprehensively addresses the hazards
of combustible dust, which may pose
difficulties for some employers trying to
develop programs to mitigate
combustible dust hazards. In addition,
the provisions of these five NFPA
standards differ, which may add to
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these difficulties. Some elements of
protection are addressed in some
standards but not in others; other
elements are addressed in different
ways in the various standards. For
example, NFPA 61, 484, and 654
contain provisions for drive belts, while
NFPA 655 and 664 have no provisions
directly addressing drive belts.
In addition to the NFPA standards
listed above, NFPA issues a number of
standards that cover the design and
installation of protection systems
specific to deflagration and explosion
hazards, including combustible dust.
Two of these standards are NFPA 68,
Standard on Explosions Protection by
Deflagration Venting, and NFPA 69,
Standard on Explosion Prevention
Systems. NFPA also has a series of
standards that cover automatic fire
suppression and alarm systems for a
variety of facilities and hazards, but are
not specific to combustible dust,
deflagrations, or explosions.
A large majority of State and local
jurisdictions in the United States have
adopted the NFPA standards because
both of the model fire codes used in this
country (i.e., International Code
Council’s International Fire Code, and
NFPA’s Fire Code) make these NFPA
standards mandatory. However, the
2006 report on CSB’s combustible dust
study indicates that enforcement of
these fire codes at the State and local
level is ‘‘inconsistent and largely
ineffective.’’ For example, the 2008
sugar-plant incident occurred in
Georgia, a State having a fire code that
mandated compliance with, among
other combustible dust-related
consensus standards, NFPA 61,
Standard for the Prevention of Fires and
Dust Explosions in Agricultural and
Food Processing Facilities.
NFPA standards are updated on a
regular basis, usually every three years.
In the Agency’s experience, consensus
standards incorporated by reference into
OSHA rules quickly become out of date,
making it difficult for employers to
comply when the out-of-date consensus
standards become difficult to obtain.
Furthermore, OSHA cannot legally
update NFPA or other consensus
standards used in its rules by referring
to the ‘‘current’’ or ‘‘most recent’’
edition of the consensus standards.
Despite the aforementioned
challenges with the application and
enforcement of NFPA standards, the
standards are used to a significant
extent throughout industry, particularly
by large companies, engineering
consultants, and firms designing
facilities with combustible dust hazards.
Therefore, OSHA is asking for comment
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H. National Emphasis Program Analysis
OSHA analyzed the results of its
Combustible Dust National Emphasis
Program (NEP) to better understand
where combustible dust hazards exist
and where improvements may be
needed to ensure that workers are
protected from combustible dust
hazards. Between November 1, 2007,
and February 24, 2009, OSHA
conducted 813 inspections under this
NEP—665 in States under Federal
OSHA authority, and 148 in States
having an OSHA-approved State Plan.
OSHA cited employers for 3,662
violations.
Of the 665 Federal NEP inspections,
160 citations were issued under the
General Duty Clause (GDC) for hazards
related to combustible dust. Therefore,
the rate of GDC usage for combustibledust-related hazards in the NEP
inspections was 24 percent during the
time period noted above (These
statistics were derived from the
information available at the time this
notice was developed; the numbers may
change over time through the informal
conference and settlement process.)
The 160 GDC violations referenced 32
different industry or consensus
standards developed by 6 different
standards-developing organizations. The
eleven most frequently referenced
consensus standards were as follows, in
descending order of frequency:
• NFPA 654, Standard for the
Prevention of Fire and Dust Explosions
from the Manufacturing, Processing,
and Handling of Combustible
Particulate Solids.
• NFPA 664, Standard for the
Prevention of Fires and Explosions in
Wood Processing and Woodworking
Facilities.
• NFPA 61, Standard for the
Prevention of Fires and Dust Explosions
in Agricultural and Food Processing
Facilities.
• NFPA 69, Standard on Explosion
Prevention Systems.
• NFPA 484, Standard for
Combustible Metals.
• NFPA 68, Standard on Explosion
Protection by Deflagration Venting.
• ASME B20.1, Standard for
Conveyors and Related Equipment.
• ANSI/ITSDF B56.1, Safety
Standard for Low and High Lift Trucks.
• FM Global Loss Prevention Data
Sheet 7–76, Prevention and Mitigation
of Combustible Dust Explosions and
Fires.
• NFPA 505, Standard on Powered
Industrial Trucks.
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• NFPA 86, Standard on Ovens and
Furnaces.
It has been necessary to cite the GDC
extensively to address the various
aspects of combustible dust hazards.
GDC citations focused on each of the
elements that could contribute to a dust
fire or explosion, including containment
or control of dust, isolation or control of
ignition sources, and explosion venting
or suppression systems. The following
hazards were the most commonly cited
GDC violations:
• Baghouse dust collectors located
inside a building without proper
explosion protection systems, such as
explosion venting or explosion
suppression systems.
• Deflagration isolation systems not
provided to prevent deflagration
propagation from dust collectors to
other parts of the plant.
• Rooms with excessive dust
accumulations not equipped with
explosion relief venting to the exterior.
• Horizontal surfaces not minimized
to prevent accumulation of dust.
• Air from dust collectors recycled
through ductwork back into the work
area.
• Legs of bucket elevator enclosures
not equipped with explosion relief
venting.
• Explosion vents on bucket elevator
enclosures directed into work areas and
not to a safe, outside location away from
platforms, means of egress, or other
potentially occupied areas.
• Pulverizers not provided with
explosion venting or deflagration
suppression systems.
• Dust collection system ductwork
not constructed of metal.
• Open-flame propane heater used for
comfort heating in an area where
agricultural products were milled.
• Equipment (such as grinders and
shakers) not maintained to minimize the
leakage of combustible dust into the
surrounding area.
• Electric grinders used in dust
hazard areas without a hot-work permit
system.
This list provides some indication of
the areas in which current standards do
not cover combustible dust hazards in
general industry. Only the last two
items on the list are administrative or
operational in nature, involving
maintenance, work practices, policies,
and procedures. The other ten items
involve engineering controls, such as
fixed facilities or protection features
built into the plant or the processing
systems. These specific GDC violations
point to areas that may be appropriate
to cover in a prospective OSHA
standard for combustible dust.
Therefore, OSHA arranged the questions
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it is asking to solicit information
separately for engineering controls and
administrative controls.
The main finding of this NEP analysis
is the unusually high rate of GDC use in
combustible dust inspections (24
percent). Ordinarily, the GDC is used on
a much more limited basis. For the same
time period between November 1, 2007
and February 24, 2009, the 48,969
Federal OSHA inspections that were
conducted outside the NEP yielded
1,736 GDC citations (a rate of 3.5
percent). Therefore, the GDC was used
almost seven times as often for
combustible-dust-related citations than
for all other citations. This unusually
high proportion suggests the need for a
comprehensive OSHA standard.
I. Regulatory Issues
The CSB recommended that OSHA
issue a standard to prevent combustible
dust fires and explosions. The CSB
determined that many tragic accidents
in the past decade could have been
avoided or minimized if employers had
complied with applicable national
consensus standards. OSHA recognizes
that regulatory action needs to be
considered as part of its overall
approach to protecting workers from
combustible dust hazards. The Agency
already has made significant efforts to
address the need for additional
information and training on combustible
dust hazards. Among these efforts are
OSHA’s SHIB, fact sheet, and poster;
additional information provided on the
Agency’s Web site; outreach to
employers; and specialized training for
compliance officers. In addition,
through the NEP, OSHA also enhanced
compliance through strengthened
enforcement of existing standards and
citations under the General Duty Clause.
The existing regulatory regime is
fragmented and incomplete. The
Agency’s analysis of the combustible
dust NEP, above, shows that existing
OSHA standards do not regulate
important elements of combustible dust
hazards. The consensus standards
related to combustible dust are large,
complex, numerous, and interrelated,
which make it difficult for employers to
comply with them. In addition, where
these consensus standards have been
adopted as part of State or local codes,
available evidence shows that they are
poorly enforced at the local and State
levels.18 Therefore, OSHA has
preliminarily concluded that national
consensus standards alone, even when
18 U.S. Chemical Safety and Hazard Investigation
Board Investigation Report No. 2006–H–1,
Combustible Dust Hazard Study; November 2006,
page 68.
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adopted by State or local governments,
are insufficient to adequately protect
workers from these hazards.
As noted earlier, combustible dust
hazards are present in a wide range of
industries. Many different materials,
both organic and inorganic, can produce
dust capable of fueling explosions.
OSHA plans to evaluate affected
industries to determine the most
effective way to regulate the
combustible dust hazards present in
these industries. It may be appropriate
for OSHA to treat specific industries
differently, based at least in part on
current national consensus standards.
OSHA must consider many factors in
developing a comprehensive standard
for combustible dust. Some of these
factors relate directly to the
characteristics of the hazard and the
range of variables encountered in the
workplace, which affect the
combustibility or explosibility of dusts.
For any dust materials having a specific
chemical composition, the chance of a
combustible dust deflagration depends
on many variables, including:
• Size of particles
• Shape of particles
• Particle surface-area-to-volume ratio
• Agglomeration (how well particles
stick together)
• Impurities present in the material
• Moisture content of the material
• The predisbursal dust layer depth
and location
• The concentration of particles in a
dust cloud
• The spatial distribution of particles
in a dust cloud (the variation in
concentration throughout a dust cloud)
• Oxygen concentration
• Turbulence in the space or area
• Characteristics of the ignition
source (including magnitude and level
of energy)
• Location of the ignition source in
relation to the dust cloud
Many more variables come into play
for combustible dust incidents than for
scenarios involving flammable gases,
flammable liquids, or larger-sized
flammable solids. The ignition of vaporair mixtures, especially at rest, is much
more predictable and reproducible than
the ignition of combustible dust.
Consequently, some mitigation methods
used to address combustible dust
hazards are not straightforward.
Prescriptive requirements may not be
reasonable or effective in such a
scenario.
Another factor involves whether and
how to integrate current and future
national consensus standards into a
regulatory scheme. One means of doing
so may be for OSHA to require
compliance with various NFPA
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standards, rather than to develop a
government-unique standard. Some of
the issues with this approach are
discussed earlier in section I(G) of this
notice. Another approach may be to
reference NFPA standards as acceptable
compliance options.
OSHA must also consider the
interrelationship of a combustible dust
standard and other OSHA standards that
address different features of the hazard,
for example, the hazard communication,
electrical, grain handling, and other
standards noted earlier in section I(F) of
this notice.
The information currently available
indicates that the risk of combustible
dust explosions is considerable and that
a single, comprehensive standard
addressing all of these hazards will
likely provide clarity for employers and
increased safety for exposed workers.
OSHA is requesting information and
comment from the public to evaluate
what regulatory action it should take to
further address combustible dust
hazards within the general industry
standards.
A. Industry Background
OSHA is interested in determining the
extent of combustible dust hazards. The
following questions address the extent
of the hazards, and provide a context in
which to understand your answers to
subsequent questions.
1. What business are you in? What
NAICS industry or industries are you
in?
2. How many employees do you have?
How many are production employees?
How many employees work in areas
where combustible dusts are present?
What types of jobs do they perform?
3. What is the area of your facility?
What percentage of this area has
combustible dusts normally present?
What percentage is subject to possible
fugitive dust accumulations?
4. What type or types of combustible
dusts are present?
5. Would you expect other firms in
your industry to have similar
combustible dusts hazards or are the
products or processes that generate
combustible dust in your facility
unusual for your industry? Why?
II. Request for Data, Information, and
Comments
OSHA is providing the following
questions to facilitate the collection of
needed information and to facilitate
public comment on relevant issues.
OSHA invites commenters to respond to
any questions for which they have
specific knowledge, data, or
information, regardless of their
involvement with combustible dust,
e.g., employer, employee, consultant,
researcher, fire or building code
enforcement official. Commenters also
are encouraged to address any aspect of
combustible dust safety that they
believe would assist the Agency in
considering appropriate regulatory
action on the matter. OSHA requests
that commenters provide a detailed
response to questions, including a
rationale or reasoning for the position
taken, rather than simply replying ‘‘yes’’
or ‘‘no.’’ Also, relevant data that may be
useful to OSHA’s deliberations, or that
may assist it in conducting an analysis
of the impacts of future Agency actions,
should be submitted. To assess the
costs, benefits, or feasibility of any
possible regulatory intervention, the
Agency needs specific quantitative
information on various safety measures.
Therefore, for those recommendations
involving specific interventions, any
data in terms of costs and benefits
associated with the recommendation
would be helpful. To assist it in
analyzing comments, OSHA requests
that commenters reference the question
number to which they are responding.
B. Definition of Combustible Dust
No single, universally accepted
definition of combustible dust is
available. Even among standards
promulgated by the same standardsdeveloping organization, the definitions
vary significantly. NFPA 654 and 655
define combustible dust in general
terms without regard for particle size.
This approach recognizes that factors
such as particle shape, agglomeration,
and other characteristics listed earlier in
this notice, can affect explosibility.
Other standards (such as NFPA 61, 484,
and 664) define combustible dust in
terms of a minimum particle size. The
definition in previous editions of NFPA
654 (which may still be used in some
areas of the country) was also sizebased.19 Furthermore, OSHA’s grain
standard uses a size-based definition for
‘‘fugitive grain dust.’’
Many different materials may form
combustible dust, and several laboratory
tests are available to characterize them.
Some of these tests help determine a
dust’s basic explosibility. Other tests
yield results on the degree of
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19 The 2006 edition of NFPA 654 explains in
Annex section A.3.3.4 the reason that the previous
size-based definition is no longer used: ‘‘Dusts
traditionally have been defined as a material 420
μm or smaller (capable of passing through a U.S.
No. 40 standard sieve). Combustible particulates
with an effective diameter of less than 420 μm
should be deemed to fulfill the criterion of the
definition. However, flat platelet-shaped particles,
flakes, or particles of fibers with lengths that are
large compared to their diameter usually do not
pass through a 420 μm sieve yet still pose a
deflagration hazard.’’
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explosibility; these tests are useful for
designers of built-in protective features
or systems. In some cases, the hazards
of certain dusts are widely known (for
example, wood dust). In these cases,
basic testing to determine whether the
dust is explosive may not be necessary.
OSHA is interested in data on the extent
to which different materials are, or may
form, combustible dust.
6. Do you determine whether a dust
is considered a combustible dust by
reference to data, testing, or some other
means? Please explain.
7. What additional tests do you
conduct to determine the level of
combustibility of a particular dust?
8. Do you have any dusts that you
assume to be combustible, and, thus,
preclude the need or expense of testing?
If so, please indicate what type of dust.
9. Certain definitions, in particular
those definitions based on particle size
alone, would not cover some materials
that can present an explosion hazard in
certain situations. Accordingly, identify
any dusts that can explode that would
not be included in your definition.
Would your definition include some
dusts for which explosions are very rare
or unknown? If so, which ones?
C. Hazard Recognition
The CSB report on its combustible
dust hazard study, as well as the
investigative reports of specific
combustible dust incidents discussed
above, show a pattern of employers and
workers being either unaware of the
hazards posed by combustible dust, or
of the seriousness of the hazards. As a
result, many workers were not
adequately protected from these
hazards. Employers who have
recognized the hazards were made
aware of them in a variety of ways.
OSHA is interested in data on the
contributions of in-house experts,
outside consultants, insurance
representatives, and local or State code
authorities in improving awareness of
the hazard.
10. How did you become aware that
you had combustible dust present in
your facility?
11. Who is responsible for
determining if a dust is combustible?
What expertise do they have?
12. How do you determine if dust is
combustible? Do you use published
data, and if so, from what source? Do
you sample dust for laboratory testing,
and if so, how often? Do you rely on
labels or data sheets, including MSDSs,
developed by others? Do suppliers
provide you with information related to
combustible dust? Please explain.
13. To what extent do the local code
authorities, insurance representatives,
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or other outside experts determine the
presence of combustible dust in your
facility?
D. Hazard Assessment
Hazard assessments are systematic
approaches to evaluating a hazard and
selecting control or mitigation methods.
CSB’s report on its combustible dust
hazard study recommends hazard
assessments as necessary for the
mitigation of combustible dust hazards.
It should be noted that NFPA 654 refers
to a hazard assessment as a ‘‘Process
Hazard Analysis.’’ In addition to
information about how employers
perform hazard assessments, OSHA is
also interested in the extent to which
experts (both external and on-staff) are
involved in hazard assessments.
14. Do you conduct assessments of
combustible dust hazards? How often?
What assessment method do you use?
Describe the information you use in
performing the assessment, as well as
the information the assessment yields
and how you use this information.
15. On whom do you rely for
technical assistance when performing
the assessment? In-house staff, local/
State authorities, insurance
representatives, or consultants?
16. How do you decide when outside
expertise or assistance is necessary?
How do you assess the capability of
outside experts?
17. Are your employees involved in
the hazard assessment? Does their
involvement improve the assessment?
Does their involvement improve their
understanding of the hazard and its
mitigation?
E. Hazard Communication and Training
OSHA’s Hazard Communication
Standard (HCS), 29 CFR 1910.1200,
comprehensively addresses the
evaluation of the potential hazards of
chemicals and the communication of
hazard information to workers.
Regarding dusts and other particulates,
as with all chemicals covered by the
HCS, a hazard evaluation must be
conducted, taking into consideration all
discernible hazards, including
explosibility. It is incumbent upon
manufacturers and importers to provide
information on the potential for, and
control of, combustible dusts.
The HCS standard has three main
components that are essential to the
effective functioning of a program. First,
chemical manufacturers and importers
must review available scientific
evidence concerning the physical and
health hazards of the chemicals they
produce or import to determine if they
are hazardous. This procedure is called
a hazard determination or hazard
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evaluation. Second, for every chemical
found to be hazardous, the chemical
manufacturer or importer must develop
Material Safety Data Sheets (MSDSs)
and container labels to be transmitted to
downstream users of the chemicals.
Employers are required to maintain an
MSDS in the workplace for each
hazardous chemical that they use.
Third, all employers must develop a
written hazard communication program
and provide information and training to
employees about the hazardous
chemicals in their workplace.
Regarding combustible dusts,
anticipated operations, uses, and
downstream material processing that
generate dusts should be considered
normal conditions when using a
substance. These conditions include
operations and uses such as abrasive
blasting, cutting, grinding, polishing, or
crushing materials; conveying, mixing,
sifting, or screening dry materials; and
the build-up of dried residue from
processing wet materials.
The HCS requires chemical
manufacturers and importers to develop
an MSDS for each hazardous chemical
they produce or import. The following
MSDS requirements are applicable to
combustible dust hazards: Chemical and
common names of the hazardous
chemical and all ingredients determined
to present a physical hazard, physical
and chemical characteristics of the
hazardous chemical, any generally
applicable precautions for safe handling
and use, any generally applicable
control measures, date of MSDS
preparation or last revision, and the
name, address, and telephone number of
the responsible party preparing the
MSDS.
During its combustible dust study,
CSB reviewed MSDSs of 140 known
substances that produce combustible
dusts, and found that information
regarding potential combustible dust
hazards was poorly or inadequately
transmitted to employers and workers;
according to this report, 41 percent of
the MSDSs reviewed in the CSB study
did not warn users about potential
explosion hazards. Of the remaining 59
percent of MSDSs sampled, most of the
information was not stated in a place or
manner clearly recognized by
employees, or not specific to hazards
related to combustible dusts. The CSB
concluded that many of the MSDSs did
not identify the potential for
combustible dust explosions that could
reasonably have been anticipated during
downstream material processing.
Training is also a critical component
of any program to control combustible
dust and prevent fires and explosions.
Employees need to understand the
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hazards, how to prevent the hazards,
and what to do in the event of a fire or
explosion.
The following questions address
MSDSs and training related to
combustible dust hazards.
18. Do the MSDSs you develop or use
identify the risks associated with
combustible dust hazards? Do they list
mitigation measures? Are you aware of
MSDSs that should identify combustible
dust as a hazard and do not? If so, please
explain.
19. Do you communicate information
on the risks of, and controls for,
combustible dust hazards to your
employees as a part of your hazard
communication program?
20. Do you train your employees on
the hazards of combustible dust and its
mitigation? Do you also provide
refresher training? What is covered in
each type of training that you provide?
How many of your employees receive
each type of training that you provide?
How many hours of training is provided
and at what frequency (on hire,
annually, as needed)? Who provides the
training? What are their qualifications?
Do you use standardized training
materials (such as films, books, and
computer classes)?
21. Do you have any means of
determining if employees understand
the training? Do you have any means of
determining if employees are applying
the training? If so, describe these means.
F. Consensus, Industry, and Insurance
Standards
Under the OSH Act, OSHA must
consider the provisions of national
consensus standards, such as those
promulgated by NFPA, in its rulemaking
efforts. In addition to this mandate,
OSHA may consider standards that are
not developed using the consensusstandards process when determining
appropriate protective measures for
employees. The following questions
refer to these standards.
22. Do you follow the provisions in
NFPA standards for combustible dust? If
so, which standards? Is this use
voluntary, or based on mandates by
local authorities, insurance carriers, or
other entities? Do you have any
difficulty in using the NFPA standards
because of conflicting definitions,
varying requirements, secondary
references to other standards, or any
other reason? If so, describe these
difficulties.
23. Do you use FM Global Property
Loss Prevention Data Sheet 7–76,
Prevention and Mitigation of
Combustible Dust Explosions and Fires,
as an aid in determining how to mitigate
the hazards of combustible dust? Is this
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use voluntary or mandated by your
insurance carrier?
24. Are there any other standards or
guides you use to address the hazards of
combustible dust? If so, please indicate
which ones, or describe them.
G. State and Local Codes
NFPA standards carry the force of law
when adopted by a jurisdiction (Federal,
State, county, or municipal); these
standards also can be mandated by an
insurance company or other entity. In
some cases, even when not mandated,
employers comply with these standards
(or portions of them) as a matter of
policy. Many State fire codes contain
mandatory references to NFPA’s
combustible dust-related standards
either directly, or by the adoption of a
model fire code. The two model fire
codes used in this country (i.e.,
International Code Council’s
International Fire Code and NFPA’s Fire
Code) both mandate compliance with
NFPA’s combustible-dust-related
standards. Despite the existence of
consensus and insurance standards, and
State fire codes, major incidents
continue to occur, as described earlier
in this notice.
The CSB’s 2006 report on its
combustible dust hazard study
concluded that State and local
enforcement of NFPA standards was
inadequate to protect workers. The
reasons found include limited
resources, insufficient training, and
enforcement efforts that concentrate on
facilities other than industrial facilities.
OSHA’s National Emphasis Program
for combustible dust has resulted in
many employers abating combustible
dust hazards in their facilities. Some
employers voluntarily upgraded their
facilities, procedures, and policies based
on outreach and guidance material
made available by a variety of
organizations (including OSHA) or in
response to the publicity surrounding
major dust explosions. These efforts
increased worker and employer
awareness of the benefits of complying
with NFPA standards. Nevertheless, it is
difficult to project trends for hazards
that result in infrequent, major incidents
such as combustible dust explosions.
Because of the variability of the many
components required for a significant
combustible dust explosion, facilities
can operate for decades without an
incident, yet suffer a catastrophic event
after a slight change in conditions. The
following questions address
enforcement issues involving
combustible dust.
25. Does the fire or building code
(State, local, or other) in your area
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specifically address the hazards of
combustible dust? If so, how?
26. Has your facility been inspected
by State or local authorities? Is this a
regular occurrence? If so, at what
frequency? Were these inspections
initiated by the authorities, or did you
take the initiative to contact them? Did
the inspections include combustible
dust hazards? Did the inspection
officials have expertise on combustible
dust hazards? What action did you take
as a result of State or local inspections?
27. Do you know if State or local
enforcement efforts have been effective
in controlling combustible dust
hazards? If you have information on any
studies of this issue other than the
CSB’s study (for example, studies
conducted by insurance organizations,
code authorities, trade associations,
consultants, or unions), please provide
information on them.
H. Engineering Controls
Various methods of controlling
occupational hazards fall into a
hierarchy in order of their effectiveness.
A typical hierarchy (beginning with the
most effective method) is:
• Elimination.
• Substitution.
• Engineering controls.
• Administrative controls.
• Personal protective equipment.
Administrative controls include work
practices, personnel scheduling,
operational procedures, and equipment
maintenance. Engineering controls are
fixed measures that are built into a
facility or processing equipment to
either remove a hazard (i.e., preventing
it from occurring) or to minimize the
effects of an incident (after a fire or
explosion has begun). OSHA believes
that, for combustible dust hazards, these
two types of engineering controls may
belong at different levels in the
hierarchy. Those engineering controls
that prevent the occurrence of an
incident, hereinafter referred to as
‘‘primary engineering controls,’’ belong
where they are normally seen in the
hierarchy; ahead of administrative
controls. Those engineering controls
that minimize deaths, injuries, or
damage after a fire or explosion has
begun, hereinafter referred to as
‘‘secondary engineering controls,’’ may
be more appropriately placed in the
hierarchy after administrative controls.
Therefore, OSHA has grouped the
questions in this section into two
categories: (a) Primary engineering
controls, and (b) secondary engineering
controls.
Collectively, primary and secondary
engineering controls often include
features of building design, processing
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systems, ventilation systems, protective
systems, and alarm systems. In NFPA
654, these provisions are not retroactive;
that is, facilities, equipment, structures,
or installations that existed or were
approved prior to the standard
becoming effective may remain as is.
While retrofitting of most equipment is
not mandated under this standard, it
allows the authority having jurisdiction
to require retrofitting of equipment or
features in situations presenting an
unacceptable degree of risk.
If OSHA were to incorporate
provisions for engineering controls in a
combustible dust standard, it would
need to address whether any of these
controls should be (1) retrofitted for all
existing facilities immediately, (2)
mandated after a specified date or
period (i.e., a delayed effective date), or
(3) required only for facilities built after
a specified date or period (i.e., a
‘‘grandfather’’ clause). The Agency is,
therefore, asking the following questions
regarding engineering controls.
28. Do your facilities or equipment
have any of the following primary
engineering controls to mitigate
combustible dust hazards? If so,
describe in detail where they are
installed and how they function to
mitigate combustible dust hazards.
a. Features to prevent escape of dust
into unwanted areas.
b. Features to prevent the
accumulation of dust on surfaces.
c. Oxygen concentration reduction.
d. Dilution with noncombustible dust.
e. Foreign material (such as tramp
metal) separation devices.
f. Monitoring and alarms for abnormal
conditions.
g. Automatic interlocks, shutoffs, or
overflow systems.
h. Manual emergency controls.
i. Lightning protection systems.
j. Features to mitigate the hazards of
process heating systems.
k. Features to mitigate the hazards of
comfort heating systems.
l. Features to mitigate the hazards of
hot surfaces.
m. Class II electrical equipment and
wiring.
n. Other mitigation features or
engineering controls designed or built
into your facility or processing
equipment to prevent the occurrence of
fires or explosions.
29. Do your facilities or equipment
have any of the following secondary
engineering controls to mitigate
combustible dust hazards? If so, please
describe in detail where they are
installed and how they function to help
mitigate combustible dust hazards.
a. Air-material separators (dust
collection systems)
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b. Segregation with physical barriers.
c. Separation by distance.
d. Fire-resistant construction.
e. Deflagration pressure containment.
f. Deflagration suppression systems.
g. Automatic fire suppression
systems.
h. Manual fire suppression
equipment.
i. Deflagration venting.
j. Dust retention and flame arresting
devices.
k. Relief valves or devices.
l. Abort gates or dampers.
m. Isolation devices to preclude
deflagration propagation.
n. Evacuation alarm systems.
o. Fire, heat, smoke, flame, or spark/
ember detection systems.
p. Other mitigation features or
engineering controls designed or built
into your facility or processing
equipment to limit deaths, injuries, or
damage after a fire or explosion has
occurred.
30. Do you feel that secondary
engineering controls should be in the
preferred hierarchy of controls after
administrative controls? Why or why
not? Please describe incidents where
secondary engineering controls were
effective or ineffective.
31. How much did each fixed feature
cost to install? Are there any special
maintenance or operating costs
associated with these features (such as
energy costs, waste disposal costs,
maintenance activities such as clean
up)? Are there any other routine costs
associated with these measures?
32. How did you decide which of
these features to provide in your
facility? Were these features installed
during the initial construction of the
facility, or retrofitted at a later time?
I. Administrative Controls
Typically, an OSHA standard
includes provisions for administrative
methods and work practices to control
or mitigate a hazard. These provisions
include operational procedures,
portable equipment, equipment
maintenance, or personal protective
equipment. In NFPA 654, these types of
provisions are retroactive, which means
they apply to all facilities, both new and
existing. The following questions
address the use of administrative and
work practice controls in your facility.
33. Does your facility have any
methods that prevent or limit the escape
of dust? Please describe these methods.
34. Do you have a program or policy
specifically for cleaning surfaces to
remove accumulated fugitive dust?
What surfaces does this program cover?
What is the frequency with which you
remove dust from surfaces? Do you
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inspect hidden and non-work areas,
such as ventilation systems, product or
input storage areas, concealed spaces,
areas above suspended ceilings, beams,
and ledges, for fugitive dust
accumulation?
35. Do you have criteria or measures
for what amount or level of fugitive dust
accumulation is tolerable (such as a
specific depth over a given area,
inability to discern underlying color)?
Please describe these criteria and
measures.
36. Do you use cleaning methods that
preclude dust disbursal? Which
methods do you use, and under what
conditions? What methods do you
prohibit, and why?
37. Do workers’ assignments, in whole
or in part, involve cleaning dust from
surfaces? How many workers perform
this task, and how many hours per week
do they spend on dust removal? Can the
cleaning be done with minimal
interruption of the facilities’ operations?
38. Do you implement ignition
controls for any of the following ignition
sources for areas where combustible
dust may be present? If so, indicate
which sources and provide details. Did
you consult with your operational
employees in developing these
programs or policies? How do you
assure that your programs or policies are
followed by all relevant parties?
a. Control of static electricity.
b. Use of cartridge-actuated tools.
c. Control of open flames and sparks
(including cutting, welding, grinding,
chipping).
d. Control of smoking.
e. Restrictions for hot surfaces.
f. Use of powered industrial trucks
(EX or DX designation).
39. Do you have a program in place
for the maintenance and testing of fixed
facilities, equipment, structures, or
systems? If so, please describe the
program.
40. Do you have or use any personal
protective equipment specific to
combustible dust hazards? If so, please
describe the equipment, and the reasons
for its use.
41. Are any of your administrative or
work practice programs or policies
written? If so, please provide a copy of
these written documents.
J. Emergency Response
Fighting combustible dust fires, or
fires near combustible dust hazards,
presents unique hazards. If done
incorrectly, risk of death and injury may
rise for both employees and firefighters.
For example, opening a containment
system or using straight-stream nozzles
can cause dispersion of dust, which can
then become the fuel for an initial or
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secondary fire or deflagration. The
following questions address emergencyresponse procedures in your facility.
42. Do you provide facility
information to industrial fire brigades or
other emergency responders for the
purpose of assisting their efforts to
respond to fires or explosions? If so,
please describe the information you
provide to them.
43. Do you provide training to
employees, industrial fire brigades, or
other emergency responders on the
hazards of fighting fires in combustible
dust-producing facilities? If so, respond
to the following questions, and provide
details and explanation. Do you train
these groups on combustible dust
hazards and their mitigation? Do you
also provide refresher training? What is
covered in this training? How many
people receive this training? How many
hours of training is provided and at
what frequency (on hire, annually, as
needed)? Who provides the training?
What are their qualifications? Do you
use standardized training materials
(such as films, books, and computer
classes)? Do you have any means of
determining if attendees understand the
training? Do you have any means of
determining if attendees apply the
training after they receive it? Please
describe any instances where the
training provided affected the outcome
of an incident.
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K. Investigation of Incidents
Much can be learned from
combustible dust fires and explosions.
In some cases, frequent minor incidents
failed to garner the attention of
employers, leading to complacency in
the workplace. In other cases, minor
incidents shielded the catastrophic
potential of combustible dust hazards.
Many of the provisions included in
the consensus standards addressing
combustible dust have been refined over
the years based on loss experience.
Potentially, even more can be learned by
studying incidents in which protective
features effectively prevented death or
injury, or incidents considered near
misses. Some possible characterizations
of near misses are situations under
which a combustible dust cloud nearly
ignited, a fire caused no deflagration or
explosion, or a deflagration or explosion
resulted in no injury or death. The
following questions address your
facility’s responses to combustible dust
fires, explosions, and near misses.
44. Have you had any combustibledust-related fires, explosions, or near
misses? Is so, describe these incidents in
detail, and indicate what changes were
implemented to prevent a reoccurrence.
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How do you define or characterize a
near miss?
45. Are combustible-dust-related fires,
explosions, or near misses investigated?
If so, indicate how thoroughly, who
performs them, and what professional
qualifications they have. Do you
document investigation results? If so,
please provide examples of such
documentation.
46. Does such a fire, explosion, or
near miss cause a new hazard
assessment to be conducted? Do these
incidents cause you to review your
engineering or administrative controls?
L. Regulatory Approach
OSHA is considering a variety of
regulatory approaches to eliminate or
mitigate combustible dust hazards. Your
comments on the following issues will
help OSHA decide how best to protect
workers effectively from combustible
dust hazards.
47. OSHA recognizes that the risk
from combustible dust hazards varies
with the type of material involved and
the conditions present, the particular
processes used at a facility, and the
number of workers exposed. These
hazards exist in facilities ranging from
a woodworking shop with one employee
to a large manufacturing plant with
thousands of workers. Should OSHA
scale its requirements to be more or less
restrictive depending on either the size
of, or type of dust present in, the
facility? How should this scaling be
done (i.e., how should the provisions of
a standard be applied to different
facilities)? Are there situations or
conditions that should limit the
provisions that apply? If so, please
explain.
48. Given the various definitions in
the consensus standards, how should
OSHA define combustible dust—by
minimum particle size, without regard
for particle size, or should the definition
vary for the type of dust? Provide the
technical basis for your response.
49. Data indicates that mineral dusts
(such as silicates, sulphates, nitrates,
carbonates, phosphates, cement, salt,
gypsum, sand, and limestone) are not
explosible. Should OSHA exclude
mineral dusts or any other dust from
coverage? If so, which dusts? Please
provide the technical data
substantiating the lack of explosibility.
50. Some dusts (such as wood dust)
are widely understood to be
combustible, and are explosible under a
wide range of conditions. Should OSHA
consider certain dusts explosible under
any conditions, thereby precluding the
need for testing? Alternatively, should
OSHA permit employers to make this
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determination? If so, for which types of
dust? Please explain your responses.
51. The NFPA combustible-dustrelated standards have some similar
provisions, but also have some
provisions that vary for different types
of dusts. Other NFPA standards have
provisions that apply only to specific
dusts. Should an OSHA standard cover
different types of dusts separately,
together, or in some other manner?
Please explain your response.
52. The approach suggested by the
CSB and others contains many of the
elements in OSHA’s Process Safety
Management (PSM) Standard. Should
an OSHA standard take an approach
similar to the PSM Standard, e.g., by
requiring the development and
implementation of a site-specific plan
tailored to the facility and hazards in
question? Please provide a rationale for
your response.
53. NFPA 654 contains a provision for
combustible dust hazard assessment,
which helps refine the actions required
for adequate safety under the specific
conditions present in a facility. OSHA
recognizes that this approach may not
be necessary for all types and sizes of
facilities. For example, a small furniture
shop may be able to safely operate
under a fixed set of requirements for the
well-understood hazards of wood dust.
Should every provision of an OSHA
combustible dust standard be addressed
in a hazard assessment, or just
provisions involving engineering
controls? Should the hazard assessment
vary according to the size or type of
facility? Please explain your response.
54. It has been suggested that OSHA
incorporate NFPA standards by
reference to address combustible dust
hazards. The Agency is concerned with
a number of issues regarding this
approach. These concerns include, but
are not limited to:
a. The scope of NFPA standards
exceeding OSHA’s mandate to protect
only employees.
b. The multitude of mandatory
primary references, secondary
references, and other subordinate
references in each NFPA standard that
could result in an unnecessary burden
on employers.
c. The differences between the various
NFPA combustible-dust-related
standards.
d. The frequent updating of standards
by NFPA, making the OSHA standard
outdated.
e. The limited availability of older
editions of NFPA standards.
f. The difficulty involved in readily
updating the consensus standards
referenced in an OSHA combustible
dust standard to the current or most
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recent edition of the consensus
standards.
g. The fact that OSHA cannot legally
update NFPA or other consensus
standards used in its rules by referring
to the ‘‘current’’ or ‘‘most recent’’
edition of the consensus standards.
How do you think the Agency should
make use of NFPA standards in a
prospective OSHA standard? If the
NFPA standards are not directly
incorporated by reference into the
OSHA standard, would it be appropriate
for the OSHA standard to reference
NFPA standards as compliance
alternatives (e.g., if an employer
complies with the referenced NFPA
standard applicable to an operation,
OSHA would deem the employer to be
in compliance with the applicable
provision of the OSHA standard)?
55. Outreach efforts (both public and
private), employer awareness, and
OSHA’s enforcement have increased in
response to various combustible dust
incidents over the last decade. As a
result, many employers continue to
upgrade their facilities and update their
operating procedures to prevent and
control combustible dust hazards.
Would an OSHA combustible dust
standard increase employee safety
beyond the level already attained
through current Federal efforts, State
and local requirements, and voluntary
standards? What approach would most
effectively increase the safety of
employees? Please provide a rationale
for your response.
56. In 2003, OSHA concluded in its
regulatory review that no significant
changes were needed to OSHA’s
standard on Grain handling facilities at
that time. Are any revisions needed to
the portions of this standard that
address fires and explosions? Are
revisions to this standard necessary to
harmonize it with the treatment of other
dusts? Should the existing provisions of
the standard that address fires and
explosions be covered under a
combustible dust rule? If OSHA retained
the standard and issued a combustible
dust standard that applied to other
facilities and processes, would portions
of your plant be covered by both
standards? If so, would this present a
problem? Please explain your response.
57. OSHA anticipates that
administrative and work practice
controls would be included in a
combustible dust standard. For instance,
several OSHA standards already address
the accumulation of fugitive
combustible dust, but do not address the
escape of dust. Some ignition sources
are covered under current OSHA
standards (such as electrical and
powered industrial trucks), but other,
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easily controlled ignition sources,
would likely be addressed in a
prospective OSHA combustible dust
standard (such as open flames, sparks,
hot surfaces, static electricity, tools, and
smoking). Engineering controls can be
more costly and take longer to
implement than administrative controls.
Should an OSHA combustible dust
standard have requirements for
engineering controls to control fugitive
combustible dust? Which engineering
controls should or should not be
required, and under what
circumstances? Should OSHA require
retrofitting of engineering controls, and
if so, which controls? What time period
should OSHA allow for retrofitting?
What are the costs associated with
retrofitting these controls?
58. Workers are often in the best
position to understand how processes
work and the characteristics of the
materials involved. Workers also may be
in the best position to see how
variations in procedures or equipment
can affect their safety. Should
operational employees participate in the
development of engineering and
administrative controls? Will this
participation improve their safety?
Please explain your response.
59. Facilities, processes, and materials
are subject to change over time. These
changes can affect potential hazards,
and, thereby, the means used to mitigate
those hazards. If these changes are not
examined to determine if corresponding
changes in protection or prevention are
necessary, worker safety could be
decreased. Should change management
be a component of an OSHA standard?
Why or why not?
60. A fire, explosion, or near-miss,
could indicate that improvements are
necessary to provide an adequate level
of employee safety. Improvements may
depend on the incident’s severity or
consequences. Should investigations of
fires or explosions be a part of an OSHA
combustible dust standard? Should a
fire or explosion be classified for
reporting purposes in terms of its
severity, effect, size, or duration? If so,
provide details. Should investigations
and reporting of near-misses be a part of
an OSHA standard? Please explain your
response.
61. Should an OSHA combustible
dust standard address the hazards of
fighting fires in combustible-dustproducing facilities? If so, should the
standard address fire fighting by
designated employees, an employer’s
industrial fire brigade, or other
emergency responders? In your
response, provide details on hazards
specific to fighting fires in or near
combustible dust.
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M. Economic Impacts and Benefits
As part of the process of developing
a standard, OSHA must estimate the
costs, economic impacts, and benefits of
the standard. OSHA also analyzes the
benefits of its standards in terms of
reduced deaths, injuries, and property
loss. The following questions will
provide OSHA with needed economic
impact and benefits information.
62. What are the potential economic
impacts associated with the
promulgation of a standard specific to
the hazards of combustible dust?
Describe these impacts in terms of
benefits from the reduction of incidents
and injuries; effects on revenue and
profit; and any other relevant impact
measure. If you have any examples of
estimates of the costs of controlling
combustible dust hazards, please
provide them.
63. What changes, if any, in market
conditions would reasonably be
expected to result from issuing a
standard on combustible dust? Describe
any changes in market structure or
concentration, and any effects on
services, that would reasonably be
expected from issuing such a standard.
64. Would a comprehensive OSHA
standard on combustible dust reduce
fire and explosion hazards? How would
an OSHA standard address any
noncompliance problem (such as,
noncompliance with the housekeeping
standard or the GDC)?
N. Impacts on Small Entities
In developing a standard, OSHA must
determine whether it will have a
significant impact on a substantial
number of small businesses. If the
standard has such impacts, OSHA is
required to develop a regulatory
flexibility analysis and assemble a Small
Business Regulatory Enforcement
Fairness Act (SBREFA) Panel prior to
publishing a proposal. Regardless of the
significance of the impacts, OSHA seeks
ways of minimizing the burdens on
small businesses consistent with
OSHA’s statutory and regulatory
requirements and objectives. OSHA has
preliminarily determined that 330,000
small firms owning 351,000
establishments and employing 6.5
million employees are in industries that
experienced combustible dusts fires or
explosions in the past.
65. How many, and what type of
small firms, or other small entities, have
combustible dust hazards, and what
percentage of their industry (NAICS
code) do these entities comprise?
66. How, and to what extent, would
small entities in your industry be
affected by an OSHA standard
E:\FR\FM\21OCP3.SGM
21OCP3
Federal Register / Vol. 74, No. 202 / Wednesday, October 21, 2009 / Proposed Rules
regulating combustible dust? Do special
circumstances exist that make
controlling combustible dust more
difficult or more costly for small entities
than for large entities? Describe these
circumstances.
O. Compliance Assistance
pwalker on DSK8KYBLC1PROD with PROPOSALS3
As indicated above, OSHA has
provided outreach and guidance
documents, and training, related to
combustible dust hazards. Through the
following questions, the Agency seeks
information on the effectiveness and
benefits of its outreach, guidance, and
training efforts, as well as suggestions
for future products.
67. Are you familiar with any of the
following guidance and outreach
products OSHA has produced? Which
of these products have you used as an
aid in determining what to do about
combustible dust in your facility?
a. Safety and Health Information
Bulletin—Combustible Dust in Industry:
Preventing and Mitigating the Effects of
Fire and Explosions.
b. Web site Safety and Health Topics
Page—Combustible Dust.
c. Hazard Alert Fact Sheet—
Combustible Dust Explosions.
d. Poster—Combustible Dust—Does
your company or firm process any of
VerDate Nov<24>2008
18:31 Oct 20, 2009
Jkt 220001
these products or materials in powdered
form?
68. What types of materials, products,
or outreach would assist you and
employees in addressing combustible
dust hazards? Do small businesses have
special needs with respect to the form
or content of such materials? Would
dust-specific or industry-specific
materials be useful?
69. Do you prefer paper publications
such as booklets, fact sheets, and quick
cards, or electronic tools such as OSHA
safety and health topics pages and
eTools?
III. Public Participation
Submit comments in response to this
document by (1) hard copy, (2) fax
transmission (facsimile), or (3)
electronically through the Federal
Rulemaking Portal. Because of securityrelated procedures, a significant delay
may occur in receiving comments by
regular mail. Contact the OSHA Docket
Office at (202) 693–2350 for information
about security procedures concerning
the delivery of materials by express
delivery, hand delivery, and messenger
service.
All comments and submissions are
available for inspection and copying at
the OSHA Docket Office at the
Technical Data Center, Room N–2625,
PO 00000
Frm 00015
Fmt 4701
Sfmt 4702
54347
U.S. Department of Labor, 200
Constitution Ave., NW., Washington,
DC 20210. Comments and submissions
are also available at https://
www.regulations.gov. OSHA cautions
commenters about submitting personal
information such as Social Security
numbers and birth dates. Contact the
OSHA Docket Office at (202) 693–2350
for information about accessing
materials in the docket.
Electronic copies of this Federal
Register notice, as well as news releases
and other relevant documents, are
available at OSHA’s Web page: https://
www.osha.gov/.
IV. Authority and Signature
This document was prepared under
the direction of Jordan Barab, Acting
Assistant Secretary of Labor for
Occupational Safety and Health, U.S.
Department of Labor, pursuant to
sections 4, 6, and 8 of the Occupational
Safety and Health Act of 1970 (29 U.S.C.
653, 655, 657), 29 CFR part 1911, and
Secretary’s Order 5–2007 (72 FR 31160).
Jordan Barab,
Acting Assistant Secretary of Labor for
Occupational Safety and Health.
[FR Doc. E9–25075 Filed 10–20–09; 8:45 am]
BILLING CODE 4510–26–P
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21OCP3
]]>Agencies
[Federal Register Volume 74, Number 202 (Wednesday, October 21, 2009)]
[Proposed Rules]
[Pages 54334-54347]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E9-25075]
[[Page 54333]]
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Part III
Department of Labor
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Occupational Safety and Health Administration
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29 CFR Part 1910
Combustible Dust; Proposed Rule
��Federal Register / Vol. 74 , No. 202 / Wednesday, October 21, 2009 /
Proposed Rules��
[[Page 54334]]
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DEPARTMENT OF LABOR
Occupational Safety and Health Administration
29 CFR Part 1910
[Docket No. OSHA-2009-0023]
RIN 1218-AC41
Combustible Dust
AGENCY: Occupational Safety and Health Administration (OSHA), Labor.
ACTION: Advance notice of proposed rulemaking.
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SUMMARY: In this advance notice of proposed rulemaking (ANPR), OSHA is
requesting comments, including data and other information, on issues
related to the hazards of combustible dust in the workplace. For the
purposes of this notice, the term ``combustible dust'' includes all
combustible particulate solids of any size, shape, or chemical
composition that could present a fire or deflagration hazard when
suspended in air or other oxidizing medium. OSHA plans to use the
information received in response to this notice in developing a
proposed standard for combustible dust.
DATES: Submit comments in response to this ANPR by January 19, 2010.
ADDRESSES: Submit comments as follows:
Electronic. Submit comments electronically at https://www.regulations.gov, which is the Federal eRulemaking Portal. Follow
the instructions online for submitting comments.
Facsimile. Commenters may fax submissions, including
attachments, that are no longer than 10 pages in length to the OSHA
Docket Office at (202) 693-1648; OSHA does not require hard copies of
these documents. Commenters must submit lengthy attachments that
supplement these documents (e.g., studies, journal articles), in
triplicate hard copy, to the OSHA Docket Office, Technical Data Center,
Room N-2625, U.S. Department of Labor, 200 Constitution Ave., NW.,
Washington, DC 20210. These attachments must clearly identify the
commenter's name, date, subject, and docket number (i.e., OSHA-2009-
0023) so the Agency can attach them to the appropriate comments.
Regular mail, express delivery, hand (courier) delivery,
and messenger service. Submit three copies of comments and any
additional material (e.g., studies, journal articles) to the OSHA
Docket Office, Docket No. OSHA-2009-0023 (or Regulation Identifier
Number (RIN) 1218-AC41), Technical Data Center, Room N-2625, U.S.
Department of Labor, 200 Constitution Avenue, NW., Washington, DC
20210; telephone (202) 693-2350 (TDY number: (877) 889-5627). Note that
security procedures may result in significant delays in receiving
comments and other written materials by regular mail. Contact the OSHA
Docket Office for information about security procedures concerning
delivery of materials by express delivery, hand delivery, and messenger
service. The hours of operation for the OSHA Docket Office are 8:15
a.m.-4:45 p.m., e.t.
Instructions. All submissions must include the Agency name
and the OSHA docket number or RIN for this rulemaking (i.e., OSHA
Docket No. OSHA-2009-0023 or RIN 1218-AC41). Submissions, including any
personal information provided, are placed in the public docket without
change and will be available online at https://www.regulations.gov.
Therefore, the Agency cautions commenters about submitting statements
they do not want made available to the public, or submitting comments
that contain personal information (either about themselves or others)
such as Social Security numbers, birth dates, and medical data.
Docket: To read or download submissions or other material
in the docket, go to https://www.regulations.gov or the OSHA Docket
Office at the address above. While all documents in the docket are
listed in the https://www.regulations.gov index, some information (e.g.,
copyrighted material) is not publicly available to read or download
through this Web site. All submissions, including copyrighted material,
are available for inspection and copying at the OSHA Docket Office.
Contact the OSHA Docket Office for assistance in locating docket
submissions.
FOR FURTHER INFORMATION CONTACT: Information regarding this ANPR is
available from the following sources:
Press inquiries. Contact Jennifer Ashley, Director, OSHA
Office of Communications, Room N-3647, U.S. Department of Labor, 200
Constitution Avenue, NW., Washington, DC 20210; telephone: (202) 693-
1999.
General and technical information. Contact Don Pittenger,
Director, Office of Safety Systems, OSHA Directorate of Standards and
Guidance, Room N-3718, U.S. Department of Labor, 200 Constitution
Avenue, NW., Washington, DC 20210; telephone: (202) 693-2255; fax:
(202) 693-1663.
Copies of this Federal Register notice. Electronic copies
are available at https://www.regulations.gov. This Federal Register
notice, as well as news releases and other relevant information, also
are available at OSHA's Web page at https://www.osha.gov.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Background
A. Introduction
B. Dust Explosions in Grain Handling Facilities
C. Dust Explosions in Other Industries
D. CSB Combustible Dust Study
E. Congressional Response
F. Existing OSHA Standards
G. Consensus and Industry Standards
H. National Emphasis Program Analysis
I. Regulatory Issues
II. Request for Data, Information, and Comments
A. Industry Background
B. Definition of Combustible Dust
C. Hazard Recognition
D. Hazard Assessment
E. Hazard Communication and Training
F. Consensus, Industry, and Insurance Standards
G. State and Local Codes
H. Engineering Controls
I. Administrative Controls
J. Emergency Response
K. Investigation of Incidents
L. Regulatory Approach
M. Economic Impacts and Benefits
N. Impacts on Small Entities
O. Compliance Assistance
III. Public Participation
IV. Authority and Signature
I. Background
A. Introduction
The hazards of combustible dust encompass a wide array of
materials, industries, and processes. Any combustible material can burn
rapidly when in a finely divided form. Materials that may form
combustible dust include, but are not limited to, wood, coal, plastics,
biosolids, candy, sugar, spice, starch, flour, feed, grain, fertilizer,
tobacco, paper, soap, rubber, drugs, dried blood, dyes, certain
textiles, and metals (such as aluminum and magnesium).
Five elements are needed for a combustible dust explosion to occur.
The first three elements are those necessary for a fire: Fuel, heat,
and an oxidizer. These three elements form the ``fire triangle,'' in
which combustible dust is the fuel, heat is provided by any source of
ignition, and oxygen is present in air and in oxidizers.
The fourth element is dispersal of dust into a cloud of the proper
concentration. These four conditions are necessary for a deflagration,
which is violent combustion accompanied by a pressure wave. The
combustion is rapid, but propagates at a speed less than the speed of
sound.
[[Page 54335]]
A fifth element, confinement, is necessary for an explosion.
Confinement can be any enclosure--including, but not limited to, a
building, room, duct, or processing and storage equipment. An explosion
occurs when the pressure developed by a deflagration bursts or ruptures
the enclosure. Together, these five elements (fuel, heat, an oxidizer,
dispersion and confinement) are known as the ``dust explosion
pentagon.'' The minimum explosible concentration is the lowest
concentration of combustible dust suspended in air that will support a
deflagration.\1\
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\1\ The terms ``deflagration'', ``explosion'', and ``minimum
explosible concentration'' are used in this notice as defined in
NFPA 654 (2006 edition) for combustible dust only. This notice does
not address the terms ``detonation'' or ``explosion'' as they relate
to materials classified as explosives.
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Secondary explosions or deflagrations occur when pressure waves
from an initial (or primary) deflagration or explosion cause dispersal
and ignition of combustible dust that has accumulated on surfaces.
Secondary explosions are often more devastating than primary explosions
due to the increased amount of fuel and the size of the ignition source
(i.e., the initial event). In some cases, explosions continue to
cascade throughout an area or facility.
OSHA is developing a standard that will comprehensively address the
fire and explosion hazards of combustible dust. The Agency's existing
standards address some, but not all, of the elements needed to protect
workers from these hazards. For example, OSHA's general industry
housekeeping standard (29 CFR 1910.22(a)(1)) addresses accumulations of
dust, including dusts that may be combustible, and the general industry
electrical standard (29 CFR 1910, subpart S) helps to control
electrical ignition hazards. When workers are exposed to hazards not
currently addressed in the OSHA standards, employers are cited under
the General Duty Clause (GDC) specified by Section 5(a)(1) of the
Occupational Safety and Health Act of 1970 (OSH Act; see 29 U.S.C.
654). The information requested in this notice will help the Agency
develop a standard that would better protect workers from the hazards
of combustible dust.
Industries that may have combustible dust hazards include, among
others: Agriculture, animal food manufacturing, grain handling, food
manufacturing, wood product manufacturing, chemical manufacturing,
textile manufacturing, furniture manufacturing, metal processing,
fabricated metal products and machinery manufacturing, pesticide
manufacturing, pharmaceutical manufacturing, tire manufacturing,
production of rubber and plastics, plastics and rubber products
manufacturing, recycling, wastewater treatment, and coal handling and
processing. To determine which industries may be affected by an OSHA
standard regulating combustible dust hazards, OSHA identified
industries that had previous incidents relating to combustible dust.
Table 1 summarizes this data. Incidents were identified using data from
the U.S. Chemical Safety and Hazard Investigation Board (CSB) involving
incidents occurring from 1980 to 2005. For incidents between 2006 and
2008, OSHA used reports gathered by the Web site
``dustexplosions.blogspot.com.'' Using these two data sources, OSHA
assigned a North American Industry Classification System (NAICS) code
to each incident using the available information. The groups of NAICS
codes in this table were determined by combining similar industries
together that had explosions in the past. Incidents having insufficient
information to assign a NAICS code to the affected establishment were
classified as ``unknown.'' OSHA's preliminary analyses show that, in
industries for which combustible dust fires or explosions have
occurred, there are 426,000 establishments employing 16 million workers
(see Table 1). The table does not show that these industries include
over 333,000 small businesses with 6.5 million employees. It is
possible that some establishments in these industries do not have
significant dust hazards.
Table 1--Industries Having at Least One Recorded Combustible Dust Incident Reported Since 1980, According to
OSHA Research
----------------------------------------------------------------------------------------------------------------
Incidents
NAICS group \1\ Name of industry \1\ (1980-2008) Firms \3\ Establishments Employees
\2\ \3\ \3\
----------------------------------------------------------------------------------------------------------------
115111.................... Cotton Ginning............... 1 260 279 2,654
221000.................... Utilities, Electric Power Gen 28 6,554 17,174 614,427
311000.................... Food Manufacturing (Except 8 5,820 7,786 834,277
311100, 311200, 311300,
311800, 311900).
311100.................... Animal Food Mfg. (Except 2 176 248 16,202
311119).
311119.................... Other Animal Food Mfg........ 5 1,046 1,549 31,971
311200.................... Grain and Oilseed Milling 5 392 658 31,439
(Except 311221 and 311230).
311221.................... Wet Corn Milling............. 21 33 65 8,875
311230.................... Breakfast Cereal Mfg......... 6 43 66 13,410
311300.................... Sugar & Confectionary Product 5 1,581 1,700 66,341
Mfg. (Except 311313).
311313.................... Beet Sugar Manufacturing..... 6 10 33 6,263
311800.................... Bakeries..................... 4 9,301 10,072 288,393
311900.................... Other Food Manufacturing..... 8 2,768 3,205 161,567
312000.................... Beverage and Tobacco Product 4 2,193 2,379 83,531
Mfg. (Except 312110).
313000.................... Textile Mills................ 11 2,770 3,243 187,766
314000.................... Textile Product Mills........ 2 6,456 6,726 155,586
321000.................... Wood Product Mfg. (Except 28 11,192 12,749 449,650
321113 and 321219).
321113.................... Sawmills..................... 7 3,398 3,731 104,666
321219.................... Reconstituted Wood Prod. Mfg. 14 167 255 22,190
322000.................... Paper Manufacturing.......... 18 3,269 5,139 441,430
324000.................... Petroleum & Coal Products Mfg 1 1,166 2,448 102,997
325000.................... Chemical Mfg. (Except 325188 31 7,737 10,749 514,732
and 325410).
325188.................... Basic Inorganic Chemical Mfg. 11 390 612 40,589
325410.................... Pharmaceutical & Medicine Mfg 8 1,481 1,886 249,743
326000.................... Plastics and Rubber Products 17 11,365 11,454 846,857
Mfg. (Except 326211).
[[Page 54336]]
326211.................... Tire Manufacturing........... 5 91 138 53,985
327000.................... Nonmetallic Mineral Prod. Mfg 4 11,332 17,350 482,459
331000.................... Primary Metal Manufacturing.. 32 4,310 5,285 449,914
332000.................... Fabricated Metal Product Mfg. 27 54,969 59,064 1,563,713
333000.................... Machinery Manufacturing...... 7 23,842 26,317 1,126,671
334000.................... Computer, Electronic Equip. 2 12,733 14,548 1,057,485
Mfg.
336000.................... Transportation Equipment Mfg. 16 10,552 12,707 1,622,527
337000.................... Furniture & Related Product 2 4,779 5,148 188,908
Mfg. (Except 337100).
337100.................... Household & Institutional 16 15,878 16,301 354,341
Furniture, Cabinet Mfg.
339000.................... Miscellaneous Manufacturing.. 7 29,925 31,239 686,096
423000.................... Merchant Wholesalers (423110, 4 22,669 27,704 432,265
423210, 423310, 423930).
488000.................... Support Activities for 1 29,416 37,083 579,589
Transportation.
493000.................... Warehousing and Storage...... 1 7,176 13,849 595,325
511000.................... Publishing Industries........ 1 22,874 31,821 1,039,739
561210.................... Facilities Support Services.. 1 1,680 4,115 164,637
562000.................... Waste Management and 3 16,189 19,919 345,334
Remediation Services.
Other..................... Unknown Industry Category.... 42 ........... .............. ...........
------------------------------------------------------
Total........................ 422 347,983 426,794 16,018,544
----------------------------------------------------------------------------------------------------------------
Sources:
\1\ North American Industry Classification System, United States, 2008.
\2\ Incident data from U.S. Chemical Safety and Hazard Investigation Board and https://
dustexplosions.blogspot.com.
\3\ County Business Patterns 2006--U.S. Census Bureau.
B. Dust Explosions in Grain Handling Facilities
In the 1970s, agriculture and food processing industries
experienced several combustible dust explosions. A 1977 grain-dust
explosion in Westwago, Louisiana, killed 36 workers. It remains the
deadliest grain-dust explosion of the modern era. Five days later,
another grain-dust explosion in Galveston, Texas, caused the deaths of
9 workers and injured 34 others.\2\ As a result of these and other
grain-dust explosions in the 1970s, OSHA issued a document entitled
``Grain Elevator Industry Hazard Alert,'' which provided employers,
workers, and other officials with information concerning the hazards
and safe handling of grain.
---------------------------------------------------------------------------
\2\ National Academy of Science, International Symposium on
Grain Elevator Explosions, July 11-12, 1978, National Materials
Advisory Board Committee on Evaluation of Industrial Hazards.
---------------------------------------------------------------------------
Later in the 1970s, the Agency initiated rulemaking to address the
problem of grain-dust explosions. On December 31, 1987, after extensive
public comment on its proposed rule and several public hearings, OSHA
published its final standard on Grain handling facilities, 29 CFR
1910.272 (52 FR 44592). In its Combustible Dust Hazard Study of
November 2006 (discussed further in Section 1(D) of this notice), the
U.S. Chemical Safety and Hazard Investigation Board stated: ``OSHA's
Grain handling facilities standard provides a model for OSHA action
that has proven effective in reducing catastrophic dust explosions in
the grain industry.'' \3\
---------------------------------------------------------------------------
\3\ U.S. Chemical Safety and Hazard Investigation Board
Investigation Report No. 2006-H-1, Combustible Dust Hazard Study;
November 2006, page 67.
---------------------------------------------------------------------------
During a review of the Grain handling facilities standard in 2003,
OSHA received comments from union representatives claiming that, since
its promulgation, grain explosions were down 42 percent, and injuries
and deaths from grain explosions were reduced by 60 percent and 70
percent respectively.\4\ Figure 1 shows the number of grain-dust
explosions per year since 1978. For the ten years prior to the standard
(1978-1987), the average number of explosions per year was 20.5. This
average decreased to 10.3 explosions per year from 1988 to 1997 and
further decreased to 6.3 per year from 1998 to 2007. OSHA gathered this
data from the Regulatory Review of OSHA's Grain Handling Standard,\5\
Kansas State University in cooperation with USDA Federal Grain
Inspection Service,\6\ and USDA Grain Inspection, Packers, and
Stockyards Administration.\7\
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\4\ Regulatory Review of OSHA's Grain Handling Standard [29 CFR
1910.272], February 2003.
\5\ Regulatory Review of OSHA's Grain Handling Standard [29 CFR
1910.272], February 2003.
\6\ Kansas State University, in cooperation with USDA Federal
Grain Inspection Service, available online at: https://www.oznet.ksu.edu/pr_histpubs/Dust_Exp.htm.
\7\ USDA Grain Inspection, Packers, and Stockyards
Administration, personal e-mail communication from USDA to OSHA, Jul
10, 2009, with attachment entitled, ``Explosion Data.''
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[[Page 54337]]
[GRAPHIC] [TIFF OMITTED] TP21OC09.035
C. Dust Explosions in Other Industries
The flammability and explosiveness of various types of organic and
inorganic dusts has been recognized for well over a century. The
devastating effects of secondary explosions resulting from accumulated
dust have also been well documented, particularly since the early years
of the 20th century; the hazards of some dusts, particularly coal dust,
mineral dusts, and flour, were recognized many years before the 20th
century. However, no national organizations focused on the hazards of
combustible dusts until the National Fire Protection Association (NFPA)
established a committee to do so in 1922. The NFPA's work resulted in a
wealth of knowledge about the prevention and control of dust-explosion
hazards in material handling and manufacturing processes. In 1923, NFPA
published the first national consensus standard to address the
prevention of dust explosions in grain terminals and flour mills.\8\
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\8\ Cashdollar, K. L., & Hertzberg, M., eds (1987) Industrial
Dust Explosions, ASTM International, U.S., p. 345.
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Over the past 15 years, a number of industries have experienced
serious dust explosions, causing loss of life and injuries, as well as
property damage. The first of these incidents, an explosion and fire in
a textile factory in Methuen, Massachusetts in 1995, injured 37 people
and destroyed several large buildings.\9\ After a detailed
investigation of this incident, OSHA issued a Hazard Information
Bulletin in 1998 for the textile industry.
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\9\ U.S. Fire Administration Technical Report 110,
Manufacturing Mill Fire, Methuen, MA, December 11, 1995.
---------------------------------------------------------------------------
In 1999, an automotive plant near Dearborn, Michigan experienced an
explosion in one of the boilers in its power plant. Analysis of the
explosion indicated that the initial boiler explosion may have caused
accumulated coal dust on plant surfaces to become airborne, fueling a
secondary explosion that destroyed part of the facility. Six workers
were killed and 36 were injured.\10\
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\10\ Michigan Department of Energy, Labor & Economic Growth, CIS
Reaches Historic Settlement Agreement with Ford and UAW, 1999
available online: https://www.michigan.gov/dleg/0,1607,7-154-10573_11472-52301-,00.html.
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In the same year, there was an explosion at a foundry in
Springfield, Massachusetts, involving powdered phenolic resin in the
iron castings manufacturing process. This explosion killed three
workers and injured nine. Investigators found heavy resin deposits in
ducts and other surfaces. From this finding, they concluded that a
primary explosion in a dust extraction duct had dispersed the settled
dust, and that the dispersed dust then fueled secondary explosions in
the facility.\11\
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\11\ U.S. Department of Labor (USDOL), 1999. Joint Foundry
Explosion Investigation Team Report, Jahn Foundry Corporation,
Springfield, MA, February 25, 1999.
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A rubber-dust explosion at a rubber recycling plant in Vicksburg,
Mississippi in 2002, resulted in five fatalities and seven injuries.
Part of the recycling process involved grinding rubber tires; the
grinding process produced rubber dust, which accumulated on building
surfaces and in a product bagging bin that was not equipped with
explosion vents. A fire started on the roof of the plant. When it
spread to the bagging bin, it dispersed the layers of dust in the bin
and on the surrounding surfaces, fueling an explosion.\12\
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\12\ OSHA, 2002, Region 4 Report on Explosion at Rouse
Polymerics, U.S. Department of Labor.
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A massive explosion in 2003 at a pharmaceuticals device
manufacturing facility in Kinston, North Carolina, injured 38 workers
and killed 6. In a process in which rubber strips were dipped into a
polyethylene slurry, fans were used to help dry the coated rubber,
causing fine polyethylene powder to be disbursed. Employees diligently
cleaned the visible areas of the process room; however, most of the
employees were unaware that combustible polyethylene
[[Page 54338]]
dust was accumulating in the enclosed space above the suspended
ceiling, carried there by the building ventilation system. Due to the
extensive damage to the facility, and the deaths of potential
witnesses, investigators were unable to definitively determine the
ignition source or the method of dust dispersal.\13\
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\13\ Investigation Report, Dust Explosion, West Pharmaceutical
Services, Inc., U.S. Chemical Safety and Hazard Investigation Board
(CSB), September 2004.
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That same year, phenolic resin again fueled a fatal dust explosion,
this time in an acoustic insulation manufacturing facility in Corbin,
Kentucky. As workers were cleaning fugitive dust accumulations with
compressed air, a cloud of phenolic resin formed near a malfunctioning
appliance, which likely ignited the cloud of dust. The initial
deflagration dispersed large quantities of combustible dust that had
accumulated on surfaces throughout the facility. The resulting dust
clouds fueled several secondary explosions. The building was destroyed,
7 workers were killed, and 37 were injured.\14\
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\14\ CSB, 2005, Investigation Report, Combustible Dust Fire and
Explosions, CTA Acoustics, Inc., February 2005.
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Even finely divided metals can cause dust explosions. Again in
2003, one worker was killed and several injured in an aluminum dust
explosion at a wheel manufacturing facility. At the point in the
process in which scrap aluminum was reduced to small chips, aluminum
particles were drawn into a dust collector. An initial explosion in the
dust collector spread through the ventilation system, causing a
secondary explosion involving the dust accumulated on overhead beams,
ducts, and other structures.\15\
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\15\ CSB, 2003, Investigation Report, Hayes Lemerz Dust
Explosions and Fire, September 2003.
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As a result of this series of incidents in 2003, OSHA produced a
Safety and Health Information Bulletin (SHIB), Combustible Dust in
Industry: Preventing and Mitigating the Effects of Fire and Explosions.
This widely disseminated guidance document provided employers and
workers with information on combustible dust explosions, including
mitigation. It contains references to both the applicable OSHA
standards and the related industry consensus standards. However,
incidents continued to occur despite the availability of these
standards and the guidance in the SHIB.
In early 2008, a catastrophic incident at a sugar refinery in Port
Wentworth, Georgia, killed 14 workers and seriously injured 36 others.
The CSB investigated \16\ and determined that an initial dust explosion
occurred in an enclosed steel belt conveyor below three 105-foot-tall
silos, most likely ignited by an overheated conveyor bearing. Large
quantities of sugar dust that had accumulated on surfaces throughout
the plant fueled a series of massive secondary explosions and fires,
destroying much of the facility. The plant had a history of previous,
smaller initial explosion incidents that did not result in significant
damage or secondary explosions. The fine OSHA proposed for this
employer is the third-largest fine ever proposed for a single incident.
---------------------------------------------------------------------------
\16\ U.S. Chemical Safety and Hazard Investigation Board
Investigation Report No. 2008-05-1-GA, Sugar Dust Explosion and
Fire; September 2009.
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The sugar plant incident highlighted a lack of hazard awareness and
a failure to comply with existing Federal standards and State codes.
OSHA took prompt action to further heighten awareness of this hazard by
producing additional guidance for employers and workers, including a
Web page, a fact sheet, and a poster. The Agency mailed the SHIB
directly to 30,000 employers suspected of having combustible dust
hazards, and also focused enforcement efforts on sugar plants.
D. CSB Combustible Dust Study
The CSB conducted a study of dust explosion incidents between 1980
and 2005. The 2006 report from that study identified 281 incidents that
killed 119 workers and injured 718.\17\ From 2006 through 2008, OSHA
has found records of an additional 16 deaths and 84 injuries; these
records are included in Table 1 above. Among CSB's findings and
conclusions were the following:
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\17\ U.S. Chemical Safety and Hazard Investigation Board
Investigation Report No. 2006-H-1, Combustible Dust Hazard Study;
November 2006, p. 31.
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Many industry and safety professionals lack awareness of
combustible dust hazards.
The widely recognized standards of good engineering
practice in the NFPA's voluntary consensus standards were not being
followed in many facilities.
State and local fire codes were ineffective as a viable
mechanism to reduce dust explosion risks in general industry
nationwide.
OSHA's focus has been on enforcement activities in
response to combustible dust incidents.
The only comprehensive OSHA standard that specifically
addresses combustible dust hazards (the 1987 Grain handling facilities
standard) has effectively reduced the risk and consequences of grain-
dust explosions, and incorporates many of the same principles that can
be found in the NFPA standards.
The report of CSB's combustible dust study also listed five
recommendations for OSHA. This notice addresses the first of these
recommendations:
``Issue a standard designed to prevent combustible dust fires and
explosions in general industry. Base the standard on current National
Fire Protection Association (NFPA) dust explosion standards (including
NFPA 654 and NFPA 484), and include at least
Hazard assessment,
engineering controls,
housekeeping,
building design,
explosion protection,
operating procedures, and
worker training.''
The second CSB recommendation requested that OSHA revise its Hazard
Communication Standard (HCS) (29 CFR 1910.1200) to clarify the coverage
and requirements related to combustible dust. This recommendation is
being addressed in a separate rulemaking.
The third and fourth CSB recommendations suggested that OSHA,
respectively, communicate with the United Nations Economic Commission
for Europe the need to amend the Globally Harmonized System to address
combustible dust hazards, and provide combustible dust-related training
through the OSHA Training Institute. Both of these recommendations have
been accomplished.
The fifth CSB recommendation suggested that OSHA initiate a Special
Emphasis Program for Combustible Dust, to include an outreach program
focused on the information in OSHA's Safety and Health Information
Bulletin, Combustible Dust in Industry: Preventing and Mitigating the
Effects of Fire and Explosions. The Agency went beyond CSB's
recommendation and implemented a National Emphasis Program (NEP) to
increase OSHA's enforcement activities throughout the country and to
focus on specific industry groups that experienced either frequent
combustible dust incidents or combustible dust incidents with
catastrophic consequences. The NEP was launched on October 17, 2007,
and is ongoing. It was revised in 2008 to more closely focus on sugar
plants.
E. Congressional Response
Interest intensified in regulatory action during the months after
the sugar-plant incident in 2008. Employee unions expressed support for
CSB's rulemaking recommendations. On May 1, 2008, the U.S. House of
Representatives introduced a bill
[[Page 54339]]
entitled H.R. 5522, Worker Protection Against Combustible Dust
Explosions and Fires Act of 2008. This bill directed OSHA to issue an
interim combustible dust rule and an amendment to the HCS in 90 days,
and a final rule in 18 months. H.R. 5522 was passed by the House and
referred to the Senate.
Two Congressional hearings were held on H.R. 5522. The first
hearing was held by the House Committee on Education and Labor on March
12, 2008, and the second hearing was held by the Subcommittee on
Employment and Workplace Safety of the Senate Housing, Education, Labor
and Pensions Committee on July 29, 2008. Assistant Secretary of Labor
Ed Foulke testified for OSHA at these hearings; also testifying were
representatives of CSB, NFPA, and the Georgia sugar plant that
sustained the 2008 explosion.
On February 4, 2009, H.R. 849, Worker Protection Against
Combustible Dust Explosions and Fires Act of 2009, was introduced into
the current session of Congress. The provisions of this resolution are
the same as H.R. 5522.
F. Existing OSHA Standards
The Agency does not have a single, comprehensive standard that
addresses combustible dust hazards across all industries. Current OSHA
standards provide limited protection from dust hazards in two ways:
First, certain standards address some dust hazards for specific
industries. Among these standards are the following:
29 CFR 1910.261--Pulp, paper, and paperboard mills.
29 CFR 1910.263--Bakery equipment.
29 CFR 1910.265--Sawmills.
29 CFR 1910.269--Electric power generation, transmission,
and distribution.
29 CFR 1910.272--Grain handling facilities.
Second, some general industry standards address one or more of the
elements that can contribute to dust explosions, such as ignition
sources and dust accumulations, or the standards require the
communication of information that employers and workers need to address
dust hazards. Among these standards are:
29 CFR 1910.22(a)--Housekeeping.
29 CFR 1910.178--Powered industrial trucks.
29 CFR 1910 Subpart Q--Welding, Cutting, and Brazing.
29 CFR 1910. 269--Electric power generation, transmission,
and distribution.
29 CFR 1910.307--Hazardous (classified) locations.
29 CFR 1910.334(d)--Occasional use of flammable or
ignitable materials.
29 CFR 1910.1200--Hazard Communication.
As noted earlier, OSHA's existing standards for combustible dust do
not provide a comprehensive set of requirements to fully address all of
the prevention and mitigation methods specific to combustible dust
hazards. Accordingly, some ignition sources are specifically covered
(e.g., electrical installations, powered industrial trucks), while
other ignition sources are not covered (e.g., mechanical sparks,
friction, open flames). Additionally, OSHA standards address the
accumulation of fugitive dust (i.e., dust that escapes from equipment
or areas where it is normally present), but do not include measures
that would prevent the escape of dust in the first place. Also, many
built-in engineering controls (including the design of facilities,
explosion venting, suppression systems, and explosion protection
systems) are not addressed in the OSHA standards. OSHA is asking a
series of questions about the need to address these areas in a new
combustible dust standard to afford adequate and complete protection to
workers.
G. Consensus and Industry Standards
NFPA issues a number of national consensus standards that address
the hazards of combustible dust. For example, NFPA 654, Standard for
the Prevention of Fire and Dust Explosions from the Manufacturing,
Processing, and Handling of Combustible Particulate Solids, addresses
the hazards of combustible dust in a general manner. Specific
industries are excluded from NFPA 654, but are covered by other NFPA
standards, including NFPA 61, Standard for the Prevention of Fires and
Dust Explosions in Agricultural and Food Processing Facilities; NFPA
484, Standard for Combustible Metals; NFPA 655, Standard for Prevention
of Sulfur Fires and Explosions; and NFPA 664, Standard for the
Prevention of Fires and Explosions in Wood Processing and Woodworking
Facilities.
These five NFPA combustible dust standards have mandatory secondary
references to a large number of other standards. The 2006 edition of
NFPA 654 mandates compliance with 36 other NFPA standards. These 36
secondary references, in turn, reference additional standards. In
effect, no one standard comprehensively addresses the hazards of
combustible dust, which may pose difficulties for some employers trying
to develop programs to mitigate combustible dust hazards. In addition,
the provisions of these five NFPA standards differ, which may add to
these difficulties. Some elements of protection are addressed in some
standards but not in others; other elements are addressed in different
ways in the various standards. For example, NFPA 61, 484, and 654
contain provisions for drive belts, while NFPA 655 and 664 have no
provisions directly addressing drive belts.
In addition to the NFPA standards listed above, NFPA issues a
number of standards that cover the design and installation of
protection systems specific to deflagration and explosion hazards,
including combustible dust. Two of these standards are NFPA 68,
Standard on Explosions Protection by Deflagration Venting, and NFPA 69,
Standard on Explosion Prevention Systems. NFPA also has a series of
standards that cover automatic fire suppression and alarm systems for a
variety of facilities and hazards, but are not specific to combustible
dust, deflagrations, or explosions.
A large majority of State and local jurisdictions in the United
States have adopted the NFPA standards because both of the model fire
codes used in this country (i.e., International Code Council's
International Fire Code, and NFPA's Fire Code) make these NFPA
standards mandatory. However, the 2006 report on CSB's combustible dust
study indicates that enforcement of these fire codes at the State and
local level is ``inconsistent and largely ineffective.'' For example,
the 2008 sugar-plant incident occurred in Georgia, a State having a
fire code that mandated compliance with, among other combustible dust-
related consensus standards, NFPA 61, Standard for the Prevention of
Fires and Dust Explosions in Agricultural and Food Processing
Facilities.
NFPA standards are updated on a regular basis, usually every three
years. In the Agency's experience, consensus standards incorporated by
reference into OSHA rules quickly become out of date, making it
difficult for employers to comply when the out-of-date consensus
standards become difficult to obtain. Furthermore, OSHA cannot legally
update NFPA or other consensus standards used in its rules by referring
to the ``current'' or ``most recent'' edition of the consensus
standards.
Despite the aforementioned challenges with the application and
enforcement of NFPA standards, the standards are used to a significant
extent throughout industry, particularly by large companies,
engineering consultants, and firms designing facilities with
combustible dust hazards. Therefore, OSHA is asking for comment
[[Page 54340]]
on how best to incorporate the provisions of the consensus standards.
H. National Emphasis Program Analysis
OSHA analyzed the results of its Combustible Dust National Emphasis
Program (NEP) to better understand where combustible dust hazards exist
and where improvements may be needed to ensure that workers are
protected from combustible dust hazards. Between November 1, 2007, and
February 24, 2009, OSHA conducted 813 inspections under this NEP--665
in States under Federal OSHA authority, and 148 in States having an
OSHA-approved State Plan. OSHA cited employers for 3,662 violations.
Of the 665 Federal NEP inspections, 160 citations were issued under
the General Duty Clause (GDC) for hazards related to combustible dust.
Therefore, the rate of GDC usage for combustible-dust-related hazards
in the NEP inspections was 24 percent during the time period noted
above (These statistics were derived from the information available at
the time this notice was developed; the numbers may change over time
through the informal conference and settlement process.)
The 160 GDC violations referenced 32 different industry or
consensus standards developed by 6 different standards-developing
organizations. The eleven most frequently referenced consensus
standards were as follows, in descending order of frequency:
NFPA 654, Standard for the Prevention of Fire and Dust
Explosions from the Manufacturing, Processing, and Handling of
Combustible Particulate Solids.
NFPA 664, Standard for the Prevention of Fires and
Explosions in Wood Processing and Woodworking Facilities.
NFPA 61, Standard for the Prevention of Fires and Dust
Explosions in Agricultural and Food Processing Facilities.
NFPA 69, Standard on Explosion Prevention Systems.
NFPA 484, Standard for Combustible Metals.
NFPA 68, Standard on Explosion Protection by Deflagration
Venting.
ASME B20.1, Standard for Conveyors and Related Equipment.
ANSI/ITSDF B56.1, Safety Standard for Low and High Lift
Trucks.
FM Global Loss Prevention Data Sheet 7-76, Prevention and
Mitigation of Combustible Dust Explosions and Fires.
NFPA 505, Standard on Powered Industrial Trucks.
NFPA 86, Standard on Ovens and Furnaces.
It has been necessary to cite the GDC extensively to address the
various aspects of combustible dust hazards. GDC citations focused on
each of the elements that could contribute to a dust fire or explosion,
including containment or control of dust, isolation or control of
ignition sources, and explosion venting or suppression systems. The
following hazards were the most commonly cited GDC violations:
Baghouse dust collectors located inside a building without
proper explosion protection systems, such as explosion venting or
explosion suppression systems.
Deflagration isolation systems not provided to prevent
deflagration propagation from dust collectors to other parts of the
plant.
Rooms with excessive dust accumulations not equipped with
explosion relief venting to the exterior.
Horizontal surfaces not minimized to prevent accumulation
of dust.
Air from dust collectors recycled through ductwork back
into the work area.
Legs of bucket elevator enclosures not equipped with
explosion relief venting.
Explosion vents on bucket elevator enclosures directed
into work areas and not to a safe, outside location away from
platforms, means of egress, or other potentially occupied areas.
Pulverizers not provided with explosion venting or
deflagration suppression systems.
Dust collection system ductwork not constructed of metal.
Open-flame propane heater used for comfort heating in an
area where agricultural products were milled.
Equipment (such as grinders and shakers) not maintained to
minimize the leakage of combustible dust into the surrounding area.
Electric grinders used in dust hazard areas without a hot-
work permit system.
This list provides some indication of the areas in which current
standards do not cover combustible dust hazards in general industry.
Only the last two items on the list are administrative or operational
in nature, involving maintenance, work practices, policies, and
procedures. The other ten items involve engineering controls, such as
fixed facilities or protection features built into the plant or the
processing systems. These specific GDC violations point to areas that
may be appropriate to cover in a prospective OSHA standard for
combustible dust. Therefore, OSHA arranged the questions it is asking
to solicit information separately for engineering controls and
administrative controls.
The main finding of this NEP analysis is the unusually high rate of
GDC use in combustible dust inspections (24 percent). Ordinarily, the
GDC is used on a much more limited basis. For the same time period
between November 1, 2007 and February 24, 2009, the 48,969 Federal OSHA
inspections that were conducted outside the NEP yielded 1,736 GDC
citations (a rate of 3.5 percent). Therefore, the GDC was used almost
seven times as often for combustible-dust-related citations than for
all other citations. This unusually high proportion suggests the need
for a comprehensive OSHA standard.
I. Regulatory Issues
The CSB recommended that OSHA issue a standard to prevent
combustible dust fires and explosions. The CSB determined that many
tragic accidents in the past decade could have been avoided or
minimized if employers had complied with applicable national consensus
standards. OSHA recognizes that regulatory action needs to be
considered as part of its overall approach to protecting workers from
combustible dust hazards. The Agency already has made significant
efforts to address the need for additional information and training on
combustible dust hazards. Among these efforts are OSHA's SHIB, fact
sheet, and poster; additional information provided on the Agency's Web
site; outreach to employers; and specialized training for compliance
officers. In addition, through the NEP, OSHA also enhanced compliance
through strengthened enforcement of existing standards and citations
under the General Duty Clause.
The existing regulatory regime is fragmented and incomplete. The
Agency's analysis of the combustible dust NEP, above, shows that
existing OSHA standards do not regulate important elements of
combustible dust hazards. The consensus standards related to
combustible dust are large, complex, numerous, and interrelated, which
make it difficult for employers to comply with them. In addition, where
these consensus standards have been adopted as part of State or local
codes, available evidence shows that they are poorly enforced at the
local and State levels.\18\ Therefore, OSHA has preliminarily concluded
that national consensus standards alone, even when
[[Page 54341]]
adopted by State or local governments, are insufficient to adequately
protect workers from these hazards.
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\18\ U.S. Chemical Safety and Hazard Investigation Board
Investigation Report No. 2006-H-1, Combustible Dust Hazard Study;
November 2006, page 68.
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As noted earlier, combustible dust hazards are present in a wide
range of industries. Many different materials, both organic and
inorganic, can produce dust capable of fueling explosions. OSHA plans
to evaluate affected industries to determine the most effective way to
regulate the combustible dust hazards present in these industries. It
may be appropriate for OSHA to treat specific industries differently,
based at least in part on current national consensus standards.
OSHA must consider many factors in developing a comprehensive
standard for combustible dust. Some of these factors relate directly to
the characteristics of the hazard and the range of variables
encountered in the workplace, which affect the combustibility or
explosibility of dusts. For any dust materials having a specific
chemical composition, the chance of a combustible dust deflagration
depends on many variables, including:
Size of particles
Shape of particles
Particle surface-area-to-volume ratio
Agglomeration (how well particles stick together)
Impurities present in the material
Moisture content of the material
The predisbursal dust layer depth and location
The concentration of particles in a dust cloud
The spatial distribution of particles in a dust cloud (the
variation in concentration throughout a dust cloud)
Oxygen concentration
Turbulence in the space or area
Characteristics of the ignition source (including
magnitude and level of energy)
Location of the ignition source in relation to the dust
cloud
Many more variables come into play for combustible dust incidents
than for scenarios involving flammable gases, flammable liquids, or
larger-sized flammable solids. The ignition of vapor-air mixtures,
especially at rest, is much more predictable and reproducible than the
ignition of combustible dust. Consequently, some mitigation methods
used to address combustible dust hazards are not straightforward.
Prescriptive requirements may not be reasonable or effective in such a
scenario.
Another factor involves whether and how to integrate current and
future national consensus standards into a regulatory scheme. One means
of doing so may be for OSHA to require compliance with various NFPA
standards, rather than to develop a government-unique standard. Some of
the issues with this approach are discussed earlier in section I(G) of
this notice. Another approach may be to reference NFPA standards as
acceptable compliance options.
OSHA must also consider the interrelationship of a combustible dust
standard and other OSHA standards that address different features of
the hazard, for example, the hazard communication, electrical, grain
handling, and other standards noted earlier in section I(F) of this
notice.
The information currently available indicates that the risk of
combustible dust explosions is considerable and that a single,
comprehensive standard addressing all of these hazards will likely
provide clarity for employers and increased safety for exposed workers.
OSHA is requesting information and comment from the public to evaluate
what regulatory action it should take to further address combustible
dust hazards within the general industry standards.
II. Request for Data, Information, and Comments
OSHA is providing the following questions to facilitate the
collection of needed information and to facilitate public comment on
relevant issues. OSHA invites commenters to respond to any questions
for which they have specific knowledge, data, or information,
regardless of their involvement with combustible dust, e.g., employer,
employee, consultant, researcher, fire or building code enforcement
official. Commenters also are encouraged to address any aspect of
combustible dust safety that they believe would assist the Agency in
considering appropriate regulatory action on the matter. OSHA requests
that commenters provide a detailed response to questions, including a
rationale or reasoning for the position taken, rather than simply
replying ``yes'' or ``no.'' Also, relevant data that may be useful to
OSHA's deliberations, or that may assist it in conducting an analysis
of the impacts of future Agency actions, should be submitted. To assess
the costs, benefits, or feasibility of any possible regulatory
intervention, the Agency needs specific quantitative information on
various safety measures. Therefore, for those recommendations involving
specific interventions, any data in terms of costs and benefits
associated with the recommendation would be helpful. To assist it in
analyzing comments, OSHA requests that commenters reference the
question number to which they are responding.
A. Industry Background
OSHA is interested in determining the extent of combustible dust
hazards. The following questions address the extent of the hazards, and
provide a context in which to understand your answers to subsequent
questions.
1. What business are you in? What NAICS industry or industries are
you in?
2. How many employees do you have? How many are production
employees? How many employees work in areas where combustible dusts are
present? What types of jobs do they perform?
3. What is the area of your facility? What percentage of this area
has combustible dusts normally present? What percentage is subject to
possible fugitive dust accumulations?
4. What type or types of combustible dusts are present?
5. Would you expect other firms in your industry to have similar
combustible dusts hazards or are the products or processes that
generate combustible dust in your facility unusual for your industry?
Why?
B. Definition of Combustible Dust
No single, universally accepted definition of combustible dust is
available. Even among standards promulgated by the same standards-
developing organization, the definitions vary significantly. NFPA 654
and 655 define combustible dust in general terms without regard for
particle size. This approach recognizes that factors such as particle
shape, agglomeration, and other characteristics listed earlier in this
notice, can affect explosibility. Other standards (such as NFPA 61,
484, and 664) define combustible dust in terms of a minimum particle
size. The definition in previous editions of NFPA 654 (which may still
be used in some areas of the country) was also size-based.\19\
Furthermore, OSHA's grain standard uses a size-based definition for
``fugitive grain dust.''
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\19\ The 2006 edition of NFPA 654 explains in Annex section
A.3.3.4 the reason that the previous size-based definition is no
longer used: ``Dusts traditionally have been defined as a material
420 [micro]m or smaller (capable of passing through a U.S. No. 40
standard sieve). Combustible particulates with an effective diameter
of less than 420 [micro]m should be deemed to fulfill the criterion
of the definition. However, flat platelet-shaped particles, flakes,
or particles of fibers with lengths that are large compared to their
diameter usually do not pass through a 420 [micro]m sieve yet still
pose a deflagration hazard.''
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Many different materials may form combustible dust, and several
laboratory tests are available to characterize them. Some of these
tests help determine a dust's basic explosibility. Other tests yield
results on the degree of
[[Page 54342]]
explosibility; these tests are useful for designers of built-in
protective features or systems. In some cases, the hazards of certain
dusts are widely known (for example, wood dust). In these cases, basic
testing to determine whether the dust is explosive may not be
necessary. OSHA is interested in data on the extent to which different
materials are, or may form, combustible dust.
6. Do you determine whether a dust is considered a combustible dust
by reference to data, testing, or some other means? Please explain.
7. What additional tests do you conduct to determine the level of
combustibility of a particular dust?
8. Do you have any dusts that you assume to be combustible, and,
thus, preclude the need or expense of testing? If so, please indicate
what type of dust.
9. Certain definitions, in particular those definitions based on
particle size alone, would not cover some materials that can present an
explosion hazard in certain situations. Accordingly, identify any dusts
that can explode that would not be included in your definition. Would
your definition include some dusts for which explosions are very rare
or unknown? If so, which ones?
C. Hazard Recognition
The CSB report on its combustible dust hazard study, as well as the
investigative reports of specific combustible dust incidents discussed
above, show a pattern of employers and workers being either unaware of
the hazards posed by combustible dust, or of the seriousness of the
hazards. As a result, many workers were not adequately protected from
these hazards. Employers who have recognized the hazards were made
aware of them in a variety of ways. OSHA is interested in data on the
contributions of in-house experts, outside consultants, insurance
representatives, and local or State code authorities in improving
awareness of the hazard.
10. How did you become aware that you had combustible dust present
in your facility?
11. Who is responsible for determining if a dust is combustible?
What expertise do they have?
12. How do you determine if dust is combustible? Do you use
published data, and if so, from what source? Do you sample dust for
laboratory testing, and if so, how often? Do you rely on labels or data
sheets, including MSDSs, developed by others? Do suppliers provide you
with information related to combustible dust? Please explain.
13. To what extent do the local code authorities, insurance
representatives, or other outside experts determine the presence of
combustible dust in your facility?
D. Hazard Assessment
Hazard assessments are systematic approaches to evaluating a hazard
and selecting control or mitigation methods. CSB's report on its
combustible dust hazard study recommends hazard assessments as
necessary for the mitigation of combustible dust hazards. It should be
noted that NFPA 654 refers to a hazard assessment as a ``Process Hazard
Analysis.'' In addition to information about how employers perform
hazard assessments, OSHA is also interested in the extent to which
experts (both external and on-staff) are involved in hazard
assessments.
14. Do you conduct assessments of combustible dust hazards? How
often? What assessment method do you use? Describe the information you
use in performing the assessment, as well as the information the
assessment yields and how you use this information.
15. On whom do you rely for technical assistance when performing
the assessment? In-house staff, local/State authorities, insurance
representatives, or consultants?
16. How do you decide when outside expertise or assistance is
necessary? How do you assess the capability of outside experts?
17. Are your employees involved in the hazard assessment? Does
their involvement improve the assessment? Does their involvement
improve their understanding of the hazard and its mitigation?
E. Hazard Communication and Training
OSHA's Hazard Communication Standard (HCS), 29 CFR 1910.1200,
comprehensively addresses the evaluation of the potential hazards of
chemicals and the communication of hazard information to workers.
Regarding dusts and other particulates, as with all chemicals covered
by the HCS, a hazard evaluation must be conducted, taking into
consideration all discernible hazards, including explosibility. It is
incumbent upon manufacturers and importers to provide information on
the potential for, and control of, combustible dusts.
The HCS standard has three main components that are essential to
the effective functioning of a program. First, chemical manufacturers
and importers must review available scientific evidence concerning the
physical and health hazards of the chemicals they produce or import to
determine if they are hazardous. This procedure is called a hazard
determination or hazard evaluation. Second, for every chemical found to
be hazardous, the chemical manufacturer or importer must develop
Material Safety Data Sheets (MSDSs) and container labels to be
transmitted to downstream users of the chemicals. Employers are
required to maintain an MSDS in the workplace for each hazardous
chemical that they use. Third, all employers must develop a written
hazard communication program and provide information and training to
employees about the hazardous chemicals in their workplace.
Regarding combustible dusts, anticipated operations, uses, and
downstream material processing that generate dusts should be considered
normal conditions when using a substance. These conditions include
operations and uses such as abrasive blasting, cutting, grinding,
polishing, or crushing materials; conveying, mixing, sifting, or
screening dry materials; and the build-up of dried residue from
processing wet materials.
The HCS requires chemical manufacturers and importers to develop an
MSDS for each hazardous chemical they produce or import. The following
MSDS requirements are applicable to combustible dust hazards: Chemical
and common names of the hazardous chemical and all ingredients
determined to present a physical hazard, physical and chemical
characteristics of the hazardous chemical, any generally applicable
precautions for safe handling and use, any generally applicable control
measures, date of MSDS preparation or last revision, and the name,
address, and telephone number of the responsible party preparing the
MSDS.
During its combustible dust study, CSB reviewed MSDSs of 140 known
substances that produce combustible dusts, and found that information
regarding potential combustible dust hazards was poorly or inadequately
transmitted to employers and workers; according to this report, 41
percent of the MSDSs reviewed in the CSB study did not warn users about
potential explosion hazards. Of the remaining 59 percent of MSDSs
sampled, most o
