Energy Conservation Program: Test Procedure for Small Electric Motors and Electric Motors, 35468-35478 [2017-15848]
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35468
Proposed Rules
Federal Register
Vol. 82, No. 145
Monday, July 31, 2017
This section of the FEDERAL REGISTER
contains notices to the public of the proposed
issuance of rules and regulations. The
purpose of these notices is to give interested
persons an opportunity to participate in the
rule making prior to the adoption of the final
rules.
DEPARTMENT OF ENERGY
10 CFR Part 431
[EERE–2017–BT–TP–0047]
Energy Conservation Program: Test
Procedure for Small Electric Motors
and Electric Motors
Office of Energy Efficiency and
Renewable Energy, Department of
Energy.
ACTION: Request for information (RFI).
AGENCY:
The U.S. Department of
Energy (DOE) is initiating a data
collection process through this request
for information to consider whether to
amend DOE’s test procedure for small
electric motors, and whether new test
procedures are needed for motors
beyond those subject to the existing
Federal test procedures. To inform
interested parties and to facilitate this
process, DOE has gathered data,
identifying several issues associated
with the currently applicable test
procedure on which DOE is interested
in receiving comment. The issues
outlined in this document mainly
concern applicability of the test
procedure to additional motor categories
(by topology, horsepower, non-standard
construction, etc.), definitions, industry
test methods, additional test procedure
clarifications, and any additional topics
that may inform DOE’s decisions in a
future test procedure rulemaking,
including methods to reduce regulatory
burden while ensuring the procedure’s
accuracy. DOE welcomes written
comments from the public on any
subject within the scope of this
document (including topics not raised
in this RFI).
DATES: Written comments and
information are requested and will be
accepted on or before August 30, 2017.
ADDRESSES: Interested persons are
encouraged to submit comments using
the Federal eRulemaking Portal at
https://www.regulations.gov. Follow the
instructions for submitting comments.
Alternatively, interested persons may
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SUMMARY:
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submit comments, identified by docket
number EERE–2017–BT–TP–0047, by
any of the following methods:
• Federal eRulemaking Portal: https://
www.regulations.gov. Follow the
instructions for submitting comments.
• Email:
SmallElectricMotors2017TP0047@
ee.doe.gov. Include docket number
EERE–2017–BT–STD–0047 in the
subject line of the message.
• Postal Mail: Appliance and
Equipment Standards Program, U.S.
Department of Energy, Building
Technologies Office, Mailstop EE–5B,
1000 Independence Avenue SW.,
Washington, DC 20585–0121. If
possible, please submit all items on a
compact disc (CD), in which case it is
not necessary to include printed copies.
• Hand Delivery/Courier: Appliance
and Equipment Standards Program, U.S.
Department of Energy, Building
Technologies Office, 950 L’Enfant Plaza
SW., 6th Floor, Washington, DC 20024.
Telephone: (202) 586–6636. If possible,
please submit all items on a CD, in
which case it is not necessary to include
printed copies.
No telefacsimilies (faxes) will be
accepted. For detailed instructions on
submitting comments and additional
information on this process, see section
III of this document.
Docket: The docket for this activity,
which includes Federal Register
notices, comments, and other
supporting documents/materials, is
available for review at https://
www.regulations.gov. All documents in
the docket are listed in the https://
www.regulations.gov index. However,
some documents listed in the index,
such as those containing information
that is exempt from public disclosure,
may not be publicly available.
The docket Web page can be found at
https://www.regulations.gov/
#!docketDetail;D= EERE–2017-BT-TP0047. The docket Web page will contain
simple instructions on how to access all
documents, including public comments,
in the docket. See section III for
information on how to submit
comments through https://
www.regulations.gov.
Mr.
Jeremy Dommu, U.S. Department of
Energy, Office of Energy Efficiency and
Renewable Energy, Building
Technologies Program, EE–5B 1000
Independence Avenue SW.,
FOR FURTHER INFORMATION CONTACT:
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Washington, DC 20585–0121.
Telephone: (202) 586–9870. Email:
ApplianceStandardsQuestions@
ee.doe.gov.
Mary Greene, U.S. Department of
Energy, Office of the General Counsel,
GC–33, 1000 Independence Avenue
SW., Washington, DC 20585–0121.
Telephone: (202) 586–1817. Email:
mary.greene@hq.doe.gov.
For further information on how to
submit a comment, review other public
comments and the docket, contact the
Appliance and Equipment Standards
Program staff at (202) 586–6636 or by
email: ApplianceStandardsQuestions@
ee.doe.gov.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Introduction
A. Authority and Background
B. Rulemaking History
II. Request for Information and Comments
A. Equipment Categories Considered in
This Request for Information
1. Small Electric Motors
2. Motors Categories Not Currently Subject
to Test Procedures
3. Exemptions
4. Motor Boundary
5. Motors Used in Dedicated Purpose Pool
Pumps
B. Metric
C. Test Procedures
1. Method
2. Motor Horsepower
3. Represented Value
D. Other Test Procedure Topics
III. Public Participation
I. Introduction
Electric motors are included in the list
of ‘‘covered equipment’’ for which DOE
is authorized to establish and amend
energy conservation standards and test
procedures. (42 U.S.C. 6311(1)(A)).
Additionally, EPCA directed DOE,
subject to a determination of feasibility
and justification, to establish energy
conservation standards and test
procedure for small electric motors. (42
U.S.C. 6317(b)) DOE’s test procedures
for small electric motors are prescribed
at subpart X of 10 CFR part 431. DOE’s
test procedures for electric motors are
prescribed at appendix B to subpart B of
part 431. The following sections discuss
DOE’s authority to establish and amend
test procedures for small electric
motors, as well as provide relevant
background information regarding
DOE’s consideration of test procedures
for this equipment.
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relevant standards promulgated under
EPCA. (See 42 U.S.C. 6316(a); (42 U.S.C.
6295(s))
Under 42 U.S.C. 6314, EPCA sets forth
the criteria and procedures DOE must
follow when prescribing or amending
test procedures for covered equipment.
EPCA generally requires that any test
procedures prescribed or amended
under this section must be reasonably
designed to produce test results which
reflect energy efficiency, energy use,
and estimated operating costs of a
covered equipment during a
representative average use cycle or
period of use and requires that test
procedures not be unduly burdensome
to conduct. (See 42 U.S.C. 6314(a)(2))
In addition, if DOE determines that a
test procedure amendment is warranted,
it must publish proposed test
procedures and offer the public an
opportunity to present oral and written
comments on them. (42 U.S.C. 6314(b))
EPCA also requires that, at least once
every 7 years, DOE evaluate test
procedures to determine whether
amended test procedures would more
accurately or fully comply with the
requirements for the test procedures to
not be unduly burdensome to conduct
and be reasonably designed to produce
test results that reflect energy efficiency,
energy use, and estimated operating
costs during a representative average
use cycle. (See 42 U.S.C. 6314(a)(1)(A))
If amended test procedures are
appropriate, DOE must publish a final
rule to incorporate the amendments. If
DOE determines that test procedure
revisions are not appropriate, DOE must
publish its determination not to amend
the test procedures. DOE is publishing
this RFI to collect data and information
to inform a potential test procedure
rulemaking to satisfy the 7-year review
requirement specified in EPCA, which
required that DOE publish, by July 07,
2016, either a final rule amending the
test procedures for small electric
motors, or a determination that
amended test procedures are not
required. (See 42 U.S.C. 6314(a)(1))
A. Authority and Background
The Energy Policy and Conservation
Act of 1975 (‘‘EPCA’’ or ‘‘the Act’’),1
Public Law 94–163 (42 U.S.C. 6291–
6317, as codified), among other things,
authorizes DOE to regulate the energy
efficiency of a number of consumer
products and industrial equipment.
Title III, Part C of EPCA, which for
editorial purposes was re-designated as
Part A–1 upon incorporation into the
U.S. Code (42 U.S.C. 6311–6317),
established the Energy Conservation
Program for Certain Industrial
Equipment, which sets forth a variety of
provisions designed to improve energy
efficiency. This equipment includes
small electric motors and electric
motors, the subject of this RFI. (42
U.S.C. 6317(b) and 42 U.S.C. 6311(1)(A))
Under EPCA, the energy conservation
program consists essentially of four
parts: (1) Testing, (2) labeling, (3)
establishing Federal energy
conservation standards, and (4)
certification and enforcement
procedures. Provisions of the Act
include definitions (42 U.S.C. 6311),
energy conservation standards (42
U.S.C. 6313), test procedures (42 U.S.C.
6314), labeling provisions (42 U.S.C.
6315), and the authority to require
information and reports from
manufacturers (42 U.S.C. 6316). EPCA
includes specific authority to establish
test procedures and standards for
electric motors and small electric
motors. (42 U.S.C. 6313(b), 42 U.S.C.
6314(a)(5) and 42 U.S.C. 6317(b))
Federal energy efficiency
requirements for covered products
established under EPCA generally
supersede State laws and regulations
concerning energy conservation testing,
labeling, and standards. (See 42 U.S.C.
6316(a) and (b); 42 U.S.C. 6297) DOE
may, however, grant waivers of Federal
preemption for particular State laws or
regulations, in accordance with the
procedures and other provisions of
EPCA. (See 42 U.S.C. 6316(b)(2)(D))
The Federal testing requirements
consist of test procedures that
manufacturers of covered equipment
must use as the basis for: (1) Certifying
to DOE that their equipment complies
with the applicable energy conservation
standards adopted pursuant to EPCA
(See 42 U.S.C. 6316(a); 42 U.S.C.
6295(s)), and (2) making representations
about the efficiency of that equipment.
(42 U.S.C. 6314(d)) Similarly, DOE must
use these test procedures to determine
whether the equipment complies with
DOE’s current test procedure for small
electric motors is located at 10 CFR
431.444. DOE prescribed test procedures
for small electric motors on July 7, 2009.
74 FR 32059.2 The current test
procedures incorporate the Institute of
Electrical and Electronics Engineers
(IEEE) Standard 114 and IEEE Standard
112 Test Methods A and B, and CSA
1 All references to EPCA in this document refer
to the statute as amended through the Energy
Efficiency Improvement Act of 2015 (EEIA 2015),
Public Law 114–11 (April 30, 2015).
2 On May 4, 2012, DOE made clarifying edits and
updates to the test procedures and provided
procedures for DOE designation of nationally
recognized certification programs. 77 FR 26608.
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B. Rulemaking History
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C747–09 and CSA C390–10 as
alternative test procedures. (See 10 CFR
431.444(b))
On June 24, 2016, DOE published a
separate notice of proposed rulemaking
regarding the certification, compliance,
labeling, and enforcement of energy
conservation standards for electric
motors and small electric motors. 81 FR
41378 (June 2016 CCE NOPR). In the
June 2016 CCE NOPR, DOE proposed to
bring certification, compliance, and
enforcement (CCE) regulations for
electric motors and small electric
motors under the general regulatory
scheme of DOE’s existing certification,
compliance, and enforcement
regulations for other covered products
and equipment. See id. Additionally,
the June 2016 CCE NOPR proposed
specific sampling plans, certification of
efficiency requirements, independent
testing laboratory and certification
program requirements, and labeling
requirements for electric motors and
small electric motors. See id.
II. Request for Information and
Comments
In the following sections, DOE has
identified a variety of issues on which
it seeks input to aid in considering
whether or not new or amended test
procedures for small electric motors.
Specifically, DOE is requesting
comment on any opportunities to
streamline and simplify testing
requirements for small electric motors.
Additionally, DOE welcomes
comments on other issues relevant to
the conduct of this process that may not
specifically be identified in this
document. In particular, DOE notes that
under Executive Order 13771,
‘‘Reducing Regulation and Controlling
Regulatory Costs,’’ Executive Branch
agencies such as DOE are directed to
manage the costs associated with the
imposition of expenditures required to
comply with Federal regulations. See 82
FR 9339 (Feb. 3, 2017). Pursuant to that
Executive Order, DOE encourages the
public to provide input on measures
DOE could take to lower the cost of its
regulations applicable to small electric
motors consistent with the requirements
of EPCA. DOE also requests comment on
the benefits and burdens of adopting
any industry/voluntary consensus-based
or other appropriate test procedure,
without modification.
A. Equipment Categories Considered in
This Request for Information
1. DOE is considering revising the test
procedures for small electric motors and
establishing new test procedures for
electric motors beyond those currently
subject to existing test procedures.
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Sections II.A.1 and II.A.2 describe both
of these categories. Small Electric
Motors
DOE regulations define ‘‘electric
motor’’ as a machine that converts
electrical power into rotational
mechanical power. 10 CFR 431.12.
EPCA defines the term ‘‘small electric
motor’’ as a NEMA general-purpose
alternating current single-speed
induction motor, built in a two-digit
frame number series in accordance with
National Electrical Manufacturers
Association (NEMA) Standards
Publication MG 1–1987 (MG 1 1987).
(42 U.S.C. 6311(13)(G))
Subpart X of 10 CFR part 431 includes
test procedures for the three topologies
of small electric motors: Capacitor-start
induction-run (CSIR), capacitor-start
capacitor-run (CSCR), and certain
polyphase motors. In any potential
rulemaking, DOE will consider
amendments to the test procedures for
a ‘‘small electric motor’’ as defined at 10
CFR 431.442. Were DOE to determine
that a motor did not meet the EPCA
definition of ‘‘small electric motor’’ and,
therefore, is not subject to test
procedures in subpart X of 10 CFR part
431, DOE may determine that such a
motor would still be considered for test
procedures as an ‘‘electric motor.’’ 3
2. Motors Categories Not Currently
Subject to Test Procedures
DOE may consider setting test
procedures for motors that are
considered ‘‘small’’ by customers and
the electric motor industry, but are not
currently subject to the small electric
motor test procedures. These motors
may have similarities to motors that are
currently regulated as small electric
motors (such as horsepower) and may
be used in similar applications.
However despite these similarities, DOE
is still determining whether these
motors would be regulated as small
electric motor or as electric motors
under DOE regulations.
Regardless of the category under
which they are regulated, if test
procedures are adopted for these
motors, DOE would define those
categories (and exemptions) using
technical and physical characteristics of
those motors. DOE expects that this
approach would describe the
applicability of test procedures to
particular motors without reference to
statements of marketing or design
intent.
In order to identify whether test
procedures should be considered for
additional motors, DOE is first
reviewing which motors are and are not
already subject to regulations. Motors of
enclosed construction, non-continuous
duty, and not meeting certain torque
requirements are not addressed by the
regulations in subpart B or subpart X of
10 CFR part 431. DOE may consider
setting test procedures for some of these
motors. Table II–2 lists the motor
topologies that may be considered for
test procedures.
Section 431.25 to subpart B of 10 CFR
part 431 subjects certain 2-digit NEMA
frame (56-frame) polyphase motors of
enclosed construction and certain 3digit polyphase motors to energy
conservation standards. The electric
motors regulated at 10 CFR 431.25
currently exclude two groups of motors:
(1) Those with less than one horsepower
and (2) polyphase motors of a 2-digit
frame size (other than certain NEMA 56frame size enclosed motors) with a
horsepower greater than or equal to one.
DOE may consider establishing test
procedures for some of these motors
with the intent is to primarily focus on
motors considered small by customers
and industry.
Only motors with a power rating of
greater than or equal to 0.25 horsepower
and less than or equal to 3 horsepower
are subject to the regulations in subpart
X to 10 CFR part 431. Should DOE
consider a potential test procedure
rulemaking, DOE does not expect at this
time that it would propose revisions to
the test procedures for polyphase
enclosed motors greater than or equal to
one horsepower in the NEMA 56-frame
size because some of these motors are
currently regulated in § 431.25 of
subpart B to 10 CFR part 431.
If DOE determines to propose test
procedures for categories of motors not
currently subject to test procedures,
DOE will reconsider a lower horsepower
limit. Upon reviewing manufacturer
catalogs, DOE found that the lowest
horsepower with multiple
manufacturers offering a wide range of
motors was 0.125 hp. DOE will consider
a minimum horsepower limit in any
potential rulemaking.
Similarly, DOE would consider an
upper horsepower limit in any
rulemaking. The 3 hp upper limit for
single-phase motors is based on a 2006
determination that DOE intends to
review. 71 FR 38799 (July 10, 2006).
DOE has since found that single-phase,
2-digit NEMA frame size motors that
exceed 3 hp are available, along with
single-phase motors inclusive of all
frame sizes with up to 15 hp. DOE also
found that polyphase 2-digit NEMA
frame size motors, excluding those
currently regulated at 10 CFR 431.25,
exist up to 5 hp.
Based on the existing definitions
discussed above, Table II–1 lists the
motor categories, by horsepower and
frame size, that may be considered for
test procedures in any rulemaking.
Frame size is not used as a limiting
factor except in the case of polyphase
motors for purposes of preventing
overlap with the electric motors
regulations listed at 10 CFR 431.25. The
final list of motors subject to test
procedures may be more limited than
Table II–1 based on properties other
than horsepower and frame size, as
discussed later in this section.
TABLE II–1—MOTORS UNDER CONSIDERATION FOR A POTENTIAL TEST PROCEDURE RULEMAKING
Horsepower
Single ...........................................................................................
Polyphase ....................................................................................
Polyphase ....................................................................................
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Phase count
Frame size
≥0.125 hp and ≤15 hp ................................................................
≥0.125 hp and ≤5 hp ..................................................................
<1 hp ...........................................................................................
All.
2-digit.*
All.
* Polyphase enclosed motors ≥1 hp, of the 56-frame size are not under consideration for revised test procedures, as certain ones of these motors were included in a separate rulemaking, and are regulated at 10 CFR 431.25.
A variety of motor topologies exist
within the range described in Table II–
1, including topologies (e.g., polyphase)
that meet the regulatory definition of
small electric motor and others (e.g.,
shaded pole) that are not currently
regulated as small electric motors or
electric motors. DOE may use a subset
of these motor topologies to describe the
3 While the motors discussed in this RFI are likely
covered as ‘‘electric motors,’’ DOE is authorized to
determine whether ‘‘other motors’’ are to be
included as covered equipment and subject to
standards. (See 42 U.S.C. 6311(2)(B)(xiii); 42 U.S.C.
6312(b))
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motors subject to test procedures in a
potential final rule. Table II–2 lists
various categories of motors that could
potentially be considered for test
procedures within the motor
horsepower and frame sizes outlined in
Table II–1. Certain subcategories of the
motors listed in Table II–2 meet the
definition of ‘‘small electric motor’’ and
are subject to regulations at subpart X of
10 CFR part 431. Table II–3 presents a
shorter list of categories of motors that
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DOE has preliminarily identified as
representing potential interest because
of their volume of shipments, ability to
be tested using existing test procedures,
and energy consumption.
Permanent-Split Capacitor ................................................................................................................................
Capacitor-Start ..................................................................................................................................................
Shaded-Pole ......................................................................................................................................................
Line-Start Permanent Magnet ...........................................................................................................................
Split-phase ........................................................................................................................................................
Permanent Magnet Synchronous
Table II–4 lists various mechanical,
electrical, and other design
characteristics of motors such as the
ability to operate submerged in a liquid
(i.e., submersible motors). DOE may rely
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on some of these design characteristics
to describe the categories of motors that
would be considered in a potential test
procedure rulemaking.
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Polyphase induction, squirrel cage.
Reluctance Synchronous.
Permanent Magnet.
Switched Reluctance.
Electronically Commutated Motor.
TABLE II–4—MOTOR CATEGORIES
BASED ON MOTOR CHARACTERISTICS
Horsepower.
Number of Speeds.
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TABLE II–3—PRIMARY MOTOR CATEGORIES BASED ON MOTOR TOPOLOGY
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all of these topologies for both induction electric motor rated to operate in and be
TABLE II–4—MOTOR CATEGORIES
cooled by the airstream of a fan or
BASED ON MOTOR CHARACTERIS- and non-induction motors (see section
blower that is not supplied with the
II.C.1). Non-induction motors (such as
TICS—Continued
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Duty Rating (e.g., continuous).
Enclosure Construction (e.g., Air Over,
TEFC, TENV).
AC input frequency (60 Hz/50 Hz).
Input waveform (AC or DC).
Frame Size.
Voltage.
Service Factor.
Flange and Endshields.
Shaft (e.g., vertical shaft, special shaft).
Base (e.g., non-standard base, mounting
configuration).
Presence of moisture-resistant, sealed, or
encapsulated windings.
Bearing construction.
Motor Component Assembly (Partial Motor).
Presence of a Brake (Brake Motor).
Presence of Gear Box (Gearmotors).
Presence of Controls (e.g., variable-speed
drives).
Close-coupled pump motors.
Submersible Motors.
The existing regulations for electric
motors apply to a subset of electric
motors characterized by nine design
elements listed at 10 CFR 431.25(g),
with the exceptions listed at 10 CFR
431.25(l). DOE could consider
establishing a similar list of
characteristics to delimit the categories
of motors included in any potential
small electric motor rulemakings, such
as:
(1) Horsepower;
(2) Number of speeds (single,
multiple, continuously variable);
(3) Motor topology;
(4) Duty rating;
(5) Enclosure construction;
(6) 60 hertz (Hz) sinusoidal power for
alternating current (AC) motors;
(7) Input waveform (either AC or
direct current (DC));
(8) Phase count (single-phase,
polyphase);
(9) Frame size; and
(10) Other criteria presented in Table
II–4.
Motors can have different speed
capabilities, including single, multi, or
(continuously) variable speeds. Variable
and multi-speed motors can be tested
with existing industry standards (see
Table II–6) at a variety of operating
points, but no single metric currently
exists to quantify the performance of the
variable or multi-speed motor. Variable
or multi-speed capability provides the
ability to save energy by more closely
matching motor output to a varying
load. DOE is considering whether to
consider all speed capabilities in setting
any potential new test procedures.
Motors can also have different
topologies as listed in Table II–2. DOE
has found test procedures that apply to
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permanent magnet motors) are often
marketed as more efficient substitutes
for induction motors, but currently have
a lower market share. DOE is
considering whether all motor
topologies would be analyzed for
potential new test procedures.
Motors can be described by their duty
type, using either NEMA or IEC
nomenclature. Duty type describes the
operating profile the motor is designed
to handle. For example, a continuous
duty motor can operate for long periods
of time at a steady load between
required shut-down periods while
intermittent-duty motors accumulate
fewer annual operating hours Similar to
the electric motors regulations described
in subpart B of 10 CFR part 431, DOE
is considering analyzing only
continuous duty type motors for
potential test procedures. DOE will
consider whether any IEC duty types
other than IEC duty type S1 correspond
to a continuous duty type. For example,
IEC duty types S9 and S10 can include
an S1 reference rating, and may also be
operated continuously.
Motors can be described by their
enclosure construction—i.e. open and
enclosed—and by many subcategories
(e.g., open drip proof, totally enclosed
non-ventilated, and totally enclosed airover). Enclosure construction tends to
describe both the level of ingress
protection (i.e., protection from dust or
splashing) and the cooling method (such
as active air cooling via an integral fan
or passive cooling via natural
convection). Similar to the electric
motors regulations described in subpart
B of 10 CFR part 431, DOE is
considering analyzing all enclosure
constructions for potential new or
revised test procedures.
An ‘‘air-over’’ motor is a unique
variety of enclosure construction
relating to a cooling method in which
the motor is cooled by an airstream
provided by a device or system separate
from the motor. At the time of the
December 2013 electric motors test
procedure final rule, DOE lacked the
necessary data to develop a test
procedure for air-over motors. 78 FR
75973–75975 (December 13, 2013). As
discussed in section II.C.1, DOE is
investigating the potential to establish a
test procedure for air-over motors.
A revised definition of air-over motor
based on the physical features of a given
motor may be needed to support
potential test procedure. As part of the
December 2013 electric motors test
procedure final rule, DOE defined the
term ‘‘air-over electric motor’’ as an
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motor and whose primary purpose is
providing airflow to an application
other than the motor driving it. 78 FR
75973–75975. In other words, air-over
electric motors do not have a factoryattached fan and require a separate
means of forcing air over the frame of
the motor. However, DOE notes that the
absence of a fan is not a differentiating
feature as some motors categories, such
as totally-enclosed non-ventilated
(TENV) motors, do not have internal
fans or blowers. In terms of physical
construction, DOE did not find any
differences between air-over motors and
non-air-over motors. For example, there
is little difference between a totallyenclosed fan-cooled motor (TEFC) and a
totally-enclosed air-over motor (TEAO).
Based on these observations, DOE
understands that what differentiates airover motors from non-air-over motors is
that they require the application of
external cooling by a free flow of air to
prevent overheating during continuous
operation. In a TEAO, without the
application of free flowing air, the
internal motor winding temperatures
would exceed the maximum permissible
temperature. The risk of overheating can
be verified by observing whether the
motor’s temperature rises during a rated
load temperature test instead of
stabilizing. During a rated load
temperature test the motor is loaded at
the rated full load using a dynamometer
until it is thermally stable. The current
industry standards incorporated by
reference in the existing DOE small
electric motors test procedure each
contain a portion describing a rated load
temperature test. Thermal stability is
defined as the condition where the
motor temperature does not change by
more than 1 ° Cover 30 minutes or 15
minutes depending on the motor
category (See section 5.8.4.4 of IEEE 4
Std 112–2004, (IEEE 112–2004), ‘‘IEEE
Standard Test Procedure for Polyphase
Induction Motors and Generators,’’ and
section 10.3.1.3 of IEEE Std 114–2010,
(IEEE 114–2010), ‘‘IEEE Standard Test
Procedure for Single-Phase Induction
Motors’’). DOE further notes that
specifying that the external cooling is
obtained by a free-flow of air
differentiates air-over motors from other
totally-enclosed pipe-ventilated motors.
Based on these findings, DOE is
considering defining an air-over motor
as a motor that does not thermally
stabilize without the application of
external cooling by a free flow of air
4 Institute for Electrical and Electronics
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during a rated temperature test
according to IEEE 112–2004; CSA 5
C747–09 (Reaffirmed 2014), (CSA C747–
09), ‘‘Energy Efficiency Test Methods
Small Motors’’; or CSA C390–09
(Reaffirmed 2015), (CSA C390–10),
‘‘Test Methods, Marking Requirements,
and Energy Efficiency Levels for Threephase Induction Motors’’ for polyphase
motors; or IEEE 114–2010 or CSA C747–
09, for single-phase motors.
AC motors are designed to operate at
a particular frequency. In the United
States, AC power is delivered at 60 Hz.
For this reason, DOE is considering
whether to continue to limit the scope
of a potential test procedure to only AC
motors that are designed to operate at 60
Hz. DOE notes that this approach
includes motors designed to operate at
60 Hz that are also capable of operating
at other frequencies (e.g., 50 Hz).
Motors can be designed to operate at
an input waveform of AC or DC. DOE
has found test procedures that apply to
both AC and DC motors. DC motors
must be fed a DC waveform, but some
DC motors are advertised as substitutes
for AC motors because a rectifier can be
placed between the AC power source
and the DC motor to convert the AC
power to DC. In many cases, the rectifier
may be integrated with the motor,
creating a drop-in replacement for AC
motors (i.e., it can be used with the
existing AC power supply). DOE is
considering whether DC motors should
be analyzed in a potential test procedure
rulemaking.
Motors also are constructed with a
particular frame size. Frame size most
commonly refers to a height
measurement between the centerline of
the shaft and the bottom of the feet, but
can also describe a motor’s axial length.
NEMA frame sizes are described in 2-,
3-, and 4-digit naming conventions.
DOE has established regulations for
small electric motors built in two-digit
frame number series according to NEMA
MG 1–1987 (i.e., 42-, 48-, and 56-frame
motors), and IEC equivalents. DOE is
aware of motor topologies in Table II–
3 within the horsepower ranges in Table
II–1 that are available in additional
frame sizes (e.g., 3-digit). Due to the
availability of additional frame sizes for
topologies and horsepower ratings that
may be considered for test procedures in
a potential rulemaking, DOE is
considering not using frame size or the
frame size naming convention (NEMA
digit count) as a means of limiting the
categories of motors analyzed for a
potential rulemaking, to the extent that
this would not overlap with existing
5 CSA
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regulations for electric motors at 10 CFR
431.25.
Issue 1: DOE seeks comment, data,
information and justification regarding a
minimum and maximum horsepower
limit for motors for which DOE may
consider test procedures.
Issue 2: DOE seeks comment, data,
and information about any additional
motor category and associated
horsepower range, frame sizes, and/or
any additional features (such as voltage
and service factor) that should be
considered in a possible test procedures
rulemaking and why (e.g., motor
categories and features presented in
Table II–1, Table II–2, Table II–3, and
Table II–4). DOE is also interested in
detailed information on whether there
would be a significant test burden
resulting from requiring testing of such
motors—and if so, the nature and extent
of that burden.
Issue 3: DOE requests comment on the
primary motor topologies included in
Table II–3, including whether they
should be considered, or not, in a
possible test procedures rulemaking and
why. DOE seeks comment on any motor
topologies not listed that DOE should
consider including in a possible test
procedures rulemaking. DOE is
interested in information on the
potential test burden associated with
testing such motors.
Issue 4: DOE seeks input on how an
air-over motor could be identified based
on physical and technical features. DOE
requests comment on whether air-over
motors could be defined based on their
inability to thermally stabilize without
the application of external cooling by a
free flow of air during a rated
temperature test according to either
IEEE 112–2004, CSA C747–09, or CSA
C390–10 for polyphase motors; or IEEE
114–2010 or CSA C747–09 for singlephase motors. In addition, DOE requests
comment and information on whether
all motors currently sold as ‘‘air-over
motors’’ and which percentage of the
market would meet this definition.
3. Exemptions
In a potential future rulemaking, any
exemption from test procedures would
likely be based on specific physical or
design criteria that can be identified at
the point of manufacture (e.g., frame
size, enclosure, service factor), and not
on the advertised application of the
motor. DOE would consider whether the
exemptions from the existing
regulations for electric motors at 10 CFR
431.25(h)-(j) would also apply to the
motors under consideration for
regulation in a potential test procedure
rulemaking. These exemptions, outlined
at 10 CFR 431.25(l), are as follows:
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• Air-over electric motors;
• Component sets of an electric
motor;
• Liquid-cooled electric motors;
• Submersible electric motors; and
• Inverter-only electric motors.
DOE adopted definitions for ‘‘air-over
electric motors,’’ ‘‘component sets,’’
‘‘liquid-cooled electric motors,’’
‘‘submersible electric motors,’’ and
‘‘inverter-only electric motors’’ at 10
CFR 431.12. If DOE undertakes a test
procedure rulemaking, it will evaluate
the merits of adopting similar
definitions and exemptions for motors
with similar features. DOE will further
investigate whether these categories of
motors exist within the range of motors
considered in any such rulemakings.
For liquid-cooled, inverter-only, and
submersible motors, DOE reviewed
online manufacturer catalogs and one
distributor’s Web site and found at least
one model corresponding to each of
these three categories of motors that was
within the horsepower ranges and frame
sizes described in Table II–1.
Issue 5: DOE seeks comment, data,
and information about any motor
category that should be considered for
exemption from a possible test
procedure rulemaking and information
providing justification for such
exemptions. All exemptions, including
exemptions targeted for motors that
serve specific applications (e.g.,
submersible motors), must be identified
based on unique physical features of the
motor. DOE seeks comment, data, and
information on these physical features.
4. Motor Boundary
An electric motor is a device that
converts electrical power into rotational
mechanical power. Some motors may
modify the electrical input via
rectification, inversion, or other
processes prior to generating a magnetic
field within the motor. This electrical
conversion process can take place via a
device integrally connected to the
motor, or via a device wired in-line
between the power source and the
motor. In a potential rulemaking, DOE
plans to specify which components
(e.g., rectifiers, inverters) would be
subject to consideration for the test
procedure.
One example of a motor that includes
electrical conversion is a DC brushless
permanent magnet motor (commonly
referred to as an electronically
commutated motor [ECM]). Typically,
the DC brushless permanent magnet
motor is connected to AC power. The
AC power is rectified into DC and
inverted to a new waveform (e.g., a
rectangular waveform) that is then fed to
the motor via electronic commutation.
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While typically integral to the motor,
this design could be implemented with
the rectification and inversion either
integral to or separate from the motor.
DOE is considering defining such
categories of motors as including all
components essential to operating the
motor. For motors that can be operated
with and without non-integrally
connected controls or electrical
conversion devices, DOE may consider
testing in each arrangement depending
on which motor categories are included
in any potential new and/or revised test
procedure.
Issue 6: DOE requests comment on
how to account for components
included in a motor for motors that are
sold in multiple pieces, specifically
regarding how to categorize controls or
electrical conversion components that
may be non-integrally connected to the
motor and how to treat them during
testing. DOE requests comment on ways
to identify control and conversion
components that are essential to motor
operation.
Issue 7: DOE seeks comments and
feedback about whether the presence of
a gear box should constitute a new
motor model when added to a motor.
More specifically, if DOE were to
establish a test procedure for motors
with gear boxes, should these motors
have to be certified to DOE separately
from the same motors without a gear
box? DOE is interested in information
regarding the potential test burden
should separate certification be
required. Does the gear box change the
tested motor efficiency?
sradovich on DSKBCFCHB2PROD with PROPOSALS
5. Motors Used in Dedicated Purpose
Pool Pumps
Although motor regulations currently
apply to certain small electric motors
(subpart X of 10 CFR part 431) and
electric motors (subpart B of 10 CFR
part 431), regulations do not cover
certain varieties of motors that are used
in pool pump applications. For
example, enclosed motors of less than
one output horsepower are not subject
to the current test procedure or energy
conservation standards, nor are
multispeed motors.
The issue of the efficiency of electric
motors used in dedicated purpose pool
pumps (DPPP) was brought up by
several stakeholders in comments
submitted in response DOE’s direct final
rule for DPPPs. 82 FR 5650 (January 18,
2017). Several manufacturers suggested
that an energy conservation standard for
the motors used in DPPPs was needed
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in addition to the standards for DPPPs
themselves. This included a
manufacturer of the motors used in pool
pump applications, Regal Beloit
Corporation, manufacturers of pumps,
Hayward Industries, Inc. and Pentair
Water Pool and Spa, Inc., and a
manufacturer of pool equipment, Zodiac
Pool Systems, Inc. (EERE–2015–BT–
STD–0008, Regal, No. 122 at pg. 1;
Hayward, No. 125 at p. 1; Pentair, No.
132 at pp. 1–2; Zodiac No. 134 at pp. 1–
2). Other commenters also argued for a
specific pool pump motor standard,
including the California Investor Owned
Utilities (CA IOUs), the industry trade
association (Association of Pool and Spa
Professionals (APSP)), and two policy
advocacy organizations (the Appliance
Standards Awareness Project (ASAP)
and the Natural Resources Defense
Council (NRDC)). (EERE–2015–BT–
STD–0008; CA IOUs, No. 130 at p. 2;
APSP, No. 127 at p. 2; ASAP No. 133
at pp. 4–5; NRDC No. 121 at p. 4). In
response to these comments, DOE
published a notice announcing a public
meeting pertaining to potential energy
conservation standards for DPPP
motors. 82 FR 30845 (July 3, 2017). In
order to consider the need for a specific
pool pump motor regulations, DOE is
requesting information on the physical
characteristics of motors used in pool
pump applications and any applicable
test procedures that DOE should
consider.
Issue 8: DOE is interested in any
physical feature(s) or observable
physical properties that would
differentiate these motors from the
currently regulated small electric motors
at 10 CFR 431.446 and electric motors
at 10 CFR 431.42525 that would help
define the scope of applicability of the
test procedure should DOE decide to
proceed in consideration of one.
Issue 9: DOE also requests comment
on any particular markings or labels
applied to these products or if there are
published industry standards that may
be used to uniquely identify motors
used in pool pump applications, for
example sections of NEMA MG 1–2014,
‘‘Motors and Generators,’’ or of UL 1801,
‘‘Standard for Swimming Pool Pumps,
Filters, and Chlorinators’’ and would
help define how they should be tested.
B. Metric
The existing small electric motor test
procedure uses motor average efficiency
at full-load as the metric. 10 CFR
431.444. A manufacturer of small
electric motors must determine the
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average efficiency, at full-load, of a basic
model through testing and applying a
sampling plan; or through the use of
alternative methods for determining
energy efficiency or energy use (also
known as alternative efficiency
determination methods, or ‘‘AEDMs’’).
10 CFR 431.445. For electric motors, the
existing test procedure uses the metric
nominal full-load efficiency. Provisions
for determining a basic model’s
efficiency through testing or with an
AEDM are currently described in 10
CFR 431.17.
In a potential test procedure
rulemaking, DOE could evaluate
whether to use the same metric and
establish the performance of small
electric motors and newly regulated
motors based on their tested average
full-load efficiency or whether to use a
different metric, such as a metric based
on motor full-load losses. The sampling
plan small electric motor manufacturers
must use to make representations of
average full-load efficiency is discussed
in section II.C.3 in this RFI.
Issue 10: DOE requests comment on
the existing small electric motor and
electric motor metrics and on any
recommended new metrics for the
motors under consideration in a test
procedure rulemaking.
C. Test Procedures
Pursuant to EPCA’s requirement that
DOE review a given test procedure at
least once every 7 years, DOE will
undertake a test procedure review.
1. Method
DOE plans to (1) determine if the
existing DOE test procedure requires
revisions, and (2) determine whether
new test procedures for any new motors
identified in section II.A are needed (3)
determine whether any new motors
identified in section 11.A should be
categorized as small electric motors or
as electric motors are needed. If DOE
develops test procedures for any new
motors, it would consider either (1)
adding testing instructions that modify
the test methods currently incorporated
by reference at 10 CFR 431.443, or (2)
establishing new methods based on
industry standards not currently
incorporated by reference in 10 CFR
431.443.
The existing test procedure for small
electric motors is codified at 10 CFR
431.443, 10 CFR 431.444, and 10 CFR
431.445. The referenced industry
standards for each motor category are
shown in Table II–5 in this RFI.
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35475
TABLE II–5—REFERENCED INDUSTRY STANDARDS FOR SMALL ELECTRIC MOTOR CATEGORIES
Motor category
Referenced industry standards
Single-phase small electric motors ..........................................................
Polyphase small electric motors less than or equal to 1 horsepower
(0.75 kW).
Polyphase small electric motors greater than 1 horsepower (0.75 kW) ..
IEEE 114–2010 or CSA C747–09.
IEEE 112–2004 Test Method A or CSA C747–09.
IEEE 112–2004 Test Method B or CSA C390–10.
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DOE reviewed existing industry
standards from the IEEE, the CSA
Group, and the International
Electrotechnical Commission (IEC) and
found existing test methods for all other
motor topologies that DOE may consider
in future regulations (see Table II–6).
However, the existing test procedure
may not apply to all existing mechanical
designs or electrical features within a
given motor category (e.g., motors with
air-over enclosures, which otherwise
meet the definition of small electric
motors or electric motors but fall
outside the scope of IEEE 112–2004).
DOE plans to consider amending the
existing test procedure to address
potential new motor categories.
For air-over motors specifically, DOE
plans to investigate testing instructions
that would allow testing based on the
same industry standards incorporated
by reference at 10 CFR 431.443. In the
past, as part of the December 2013
electric motors test procedure final rule,
DOE investigated possible methods to
test air-over electric motors and
determined that it did not have
sufficient information to overcome the
practical challenges associated with
testing air-over motors, such as
providing a standard flow of cooling air
from an external source that provides a
constant velocity over the tested motor
under defined ambient temperature and
barometric conditions. Therefore, at the
time, DOE did not establish any test
methods for air-over motors. 78 FR
75926, 78 FR 75962, 75973–75975
(December 13, 2013).
DOE reviewed section 8.2.1 of IEEE
114–2010 and section 5 of CSA C747–
09, which include provisions for testing
air-over single-phase motors. Typically,
the measurements according to these
test standards are performed when the
tested motor’s winding is thermally
stable.6 Because the windings of air-over
motors would overheat without an
external airflow and degrade the motor,
both test methods include specific
provisions for air-over motors. Both test
methods require test measurements to
be performed with sufficient ventilation
to maintain a temperature within 70 °C–
80 °C, therefore removing the need to
accurately measure airflow by
specifying a temperature range for the
motor’s winding instead. Because the
motor winding temperature is inversely
correlated to efficiency, a target winding
temperature range is specified to enable
relative comparability of efficiency for
air-over motors. This temperature range
(70–80 °C) was originally selected by
CSA as it would reflect a winding
temperature range that mimics the field
operating conditions for air-over
motors.7
NEMA published an air-over
efficiency test standard which provides
three testing methods for measuring the
efficiency of single phase and polyphase
air-over motors (NEMA Air-over Motor
Efficiency Test Method).8 Each test
method requires a temperature test
before performing the efficiency test
according to the applicable test
standard 9 and replaces the original
temperature test portion of the
applicable efficiency test. Although
each of the three methods require the
temperature test to be conducted
differently,10 the document describes
the three testing methods as equivalent.
DOE intends to review these test
methods, and evaluate whether a similar
approach for testing single-phase and
polyphase air-over motors should be
considered. DOE will also review the
possibility of testing polyphase air-over
motors using different target
temperatures depending on the air-over
motor’s insulation class for polyphase
motors.
DOE also is evaluating possible test
procedures for motors with nonstandard construction. These motors,
which otherwise meet the definition of
small electric motors, include motor
variants such as motors with special
shaft dimensions, motors with brakes, or
motors with vertical mounting. For
these motors, DOE plans on reviewing
the applicability of the testing
instructions in section 4 of appendix B
to subpart B of part 431.
Finally, DOE is also evaluating
potential test procedures for
synchronous motors. Specifically, DOE
will evaluate the industry standards
applicable to synchronous motors in
Table II–6. DOE will consider each test
procedure with respect to any proposed
scope of applicability (e.g., motor
horsepower limits). For example, CSA
C747–09 has a scope of 0.186 kW to
0.746 kW (0.25 hp to 1 hp), and IEEE
Std 115–2009, (IEEE 115–2009), ‘‘IEEE
Guide for Test Procedures for
Synchronous Machines,’’ applies to
larger than fractional horsepower
motors (i.e., greater than or equal to 1
hp); therefore, if the proposed scope of
applicability of a test procedure
spanned both industry standards, DOE
would consider whether each industry
standard was appropriate and would
determine how to specify which
industry standard applied to various
synchronous motors. DOE, however, is
uncertain as to the applicability of IEEE
115–2009 to AC permanent magnet
synchronous and reluctance
synchronous motors, one of the
synchronous motor topologies in Table
II–6 in this RFI.
6 A rated load temperature test is a test during
which the motor is loaded at the rated full-load by
means of a dynamometer until it is thermally stable.
Thermal stability is defined as the condition where
the motor temperature does not change by more
than 1 °C over 30 min or 15 min depending on the
motor category (See section 5.8.4.4 of IEEE 112–
2004 and section 10.3.1.3 of IEEE 114–2010)
7 Additionally, DOE reviewed 366 single-phase,
air-over motor models from five major motor
manufacturers and observed the following
distribution across insulation classes: A (1.5
percent); B (85 percent), F (13 percent); and H (0.5
percent). An insulation class B corresponds to a
winding temperature of 75 °C according to Table 2
of IEEE 114–2010.
8 NEMA MG1–2016, Supplement-2017. Motors
and Generators Section IV Part 34: Air-Over Motor
Efficiency Test Method. March 2017. Available at
https://www.nema.org/Standards/Pages/Motors-andGenerators.aspx.
9 IEEE 114–2010, IEEE 112–2014, CSA C390–10,
or CSA C747–09, depending on the motor phase
and rated motor horsepower.
10 The NEMA Air-over Motor Efficiency Test
Methods describes three temperature tests
conducted by (1) thermally stabilizing while
applying an air-flow based on customer
specification; (2) bringing the air-over motor at fullload within 10 °C of a target temperature using
external cooling air (the target temperature for
single phase motors is 75 °C, while the target
temperature for polyphase motors varies depending
on the motor’s insulation class); or (3) bringing the
air-over motor at a reduced load condition to within
10 °C of the target temperature without using
external cooling air.
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TABLE II–6—PRIMARY MOTOR TOPOLOGIES AND EXISTING INDUSTRY STANDARDS
Motor topology
Existing industry standard
Permanent-Split Capacitor .......................................................................
Capacitor-Start (CSCR, CSIR) .................................................................
Split-phase ................................................................................................
Shaded-Pole .............................................................................................
Line-Start Permanent Magnet ..................................................................
AC Permanent Magnet Synchronous .......................................................
IEEE 114–2010; IEC 60034–2–1: 2014 †; CSA C747–09.
IEEE 114–2010*; IEC 60034–2–1: 2014; CSA C747–09.
IEEE 114–2010; IEC 60034–2–1: 2014; CSA C747–09.
IEEE 114–2010; IEC 60034–2–1: 2014; CSA C747–09.
IEC 60034–2–1: 2014; CSA C747–09.
IEEE 115–2009; IEEE 1812–2014 ‡; IEC 60034–2–1: 2014; CSA
C747–09. (The IEC and CSA standards may not apply to auxiliary
starting motor designs).
IEEE 112–2004 (Method A and B)**; IEC 60034–2–1: 2014; CSA
C390–10; CSA C747–09.
CSA C747–09.
IEC 60034–2–1: 2014.
CSA C747–09.
CSA C747–09.
Polyphase induction, squirrel cage ..........................................................
Reluctance Synchronous ..........................................................................
DC Brushed Permanent Magnet ..............................................................
Switched Reluctance *** ...........................................................................
DC Brushless Permanent Magnet *** .......................................................
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* Includes testing provisions for air-over motors.
** Does not include all polyphase induction squirrel cage motors (e.g., air over motors, inverter-only motors).
*** These motors are often referred to as electronically commutated motors (ECM).
† IEC 60034–2–1: 2014, ‘‘Rotating electrical machines—Part 2–1: Standard methods for determining losses and efficiency from tests (excluding machines for traction vehicles).’’.
‡ IEEE 1812–2014 ‘‘IEEE Trial-Use Guide for Testing Permanent Magnet Machines.’’
Issue 11: DOE seeks comment and
information on whether and why the
existing test procedure for determining
the average full-load efficiency of small
electric motors requires revision, and, if
so, what these revisions should be. DOE
also requests comment on the impact to
test burden from any suggested
revisions.
Issue 12: DOE requests comment and
input on the availability of methods for
testing other topologies (motors other
than CSCR, CSIR, and polyphase) listed
in Table II–6 in this RFI. If a new test
procedure is needed, DOE requests
information on any additional
instructions that would be required to
test these motor topologies.
Issue 13: DOE requests comment on
any other design features of a motor that
could require modifications to an
industry standard for testing, what these
modifications should be, and why. In
particular, DOE requests comment on
whether testing instructions similar to
the ones found in section 4 of appendix
B to subpart B of part 431 would apply
to any new motors that may be included
in a possible test procedure rulemaking.
Issue 14: DOE requests comment and
input regarding the existing testing
provisions for air-over motors in section
8.2.1 of IEEE 114–2010, section 5 of
CSA C747–09, and in the NEMA Airover Motor Efficiency Test Method.
Specifically, DOE requests feedback and
supporting data on the repeatability and
level of accuracy of these methods, and
on whether these or other methods
would lead to equivalent results when
applied to the same motor.
Issue 15: DOE understands that
customers may provide air-velocity
specifications for air-over motors. DOE
requests comment on whether testing
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air-over motors according to customer
air-velocity specifications is currently
used by the industry and why.
Additionally DOE requests comment on
whether testing air-over motors
according to customer air-velocity
specifications would allow
comparability of efficiency across
motors.
Issue 16: DOE is aware that, because
efficiency is inversely correlated to
temperature, conducting the
temperature test using a different target
temperature for polyphase air-over
motors depending on the motor’s
insulation class may lead to measured
efficiency values that are not
comparable across insulation classes.
When measuring polyphase air-over
motor efficiency, DOE requests
comment on whether the temperature
test should be conducted using a single
target temperature in order to allow
relative comparability of polyphase airover motor efficiency across insulation
classes. If not, DOE requests comment
on a justification for why testing
polyphase air-over motors using a
temperature test at different target
temperatures depending on the motor’s
insulation class would still provide
comparable efficiency results across
insulation classes.
Issue 17: DOE also requests comment
regarding any additional instructions for
testing electronically commutated
motors or other categories of motors
with controls (e.g., variable-speed
drives), and how controls affect average
full load efficiency of the motor.
Issue 18: DOE requests comment on
industry standards applicable to
synchronous motors and their
applicability to the horsepower range
(i.e., ≥0.125 hp and ≤15 hp) that DOE is
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considering in a potential test procedure
rulemaking (e.g., IEEE 115–2009, IEEE
1812–2014, IEC 60034–2–1: 2014, and
CSA C747–09). DOE also requests
comment on the applicability of IEEE
115–2009 to AC permanent magnet
synchronous and synchronous
reluctance motors.
Issue 19: DOE requests comment on
the feasibility of testing motors that are
components of other equipment.
Specifically, DOE requests comments on
whether some motors that only enter
commerce as components of another
product require modifications to an
industry standard for testing and on
what these modifications should be and
why.
Issue 20: DOE requests comment and
supporting data on testing times and
associated costs of efficiency testing.
Specifically, how many hours it takes to
test a motor per each industry standard
listed in Table II–6, if manufacturers test
their own models or hire a third-party
for testing, if manufacturers need to
purchase additional test equipment
according to the industry standards in
Table II–6, and if there are any other
costs associated with testing.
Issue 21: DOE requests comment on
the benefits and burdens of adopting
any already existing voluntary
consensus-based or other appropriate
test procedure, without modification.
2. Motor Horsepower
As part of the potential test procedure
rulemaking, DOE is considering
establishing a method to determine the
load point for testing a motor under fullload (i.e., rated motor horsepower).
Rated motor horsepower is generally not
an intrinsic, observable motor property,
but rather it is declared by the
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manufacturer, and motors are usually
capable of operating both above and
below the rated motor horsepower. As a
result, the existing test procedure in
subpart X of 10 CFR part 431 relies on
the definition of small electric motor
(e.g., a general purpose motor according
to NEMA MG 1–1987), but the DOE
regulations do not explicitly address
how to determine the full-load or rated
motor horsepower of a motor.
To better specify the test procedures,
DOE is considering approaches to
determine rated motor horsepower
based on motor properties like
breakdown torque and temperature rise.
NEMA Standards Publication MG 1–
2014, (MG 1–2014), ‘‘Motors and
Generators,’’ section 10.34 specifies that
the rated motor horsepower of a small
or medium single-phase induction
motor is based on breakdown torque.
NEMA MG 1–2014 then provides ranges
of breakdown torque associated with
rated motor horsepower and pole
configurations. However, DOE
identified multiple motor models that
had a manufacturer-listed breakdown
torque outside of the associated NEMA
range (i.e., for a given topology, pole
configuration, and rated motor
horsepower), indicating not all motors
follow the conventions listed in NEMA
MG 1–2014.
Another option would be to
determine the rated motor horsepower
based on a load which results in a
temperature rise associated with the
insulation class of the motor (i.e.,
service factor load). Insulation class is a
letter designation (i.e., A, B, F, and H),
which has an associated temperature
rise indicating the temperature at which
the motor can operate, and is commonly
displayed in manufacturer literature and
on motor nameplates. DOE is aware of
insulation class temperature rises in
NEMA MG 1–2014 section 12.42 and
12.43, and also in IEEE 112–2004 Table
1 which may be applicable to this
method. The load which results in the
insulation class temperature rise would
be a repeatable loading point, but DOE
will consider if it is appropriate for
determining efficiency, or if it could be
indirectly used as a reference point for
calculating the rated motor horsepower.
Issue 22: DOE requests comment on
how industry currently determines the
full-load, or rated, horsepower of a
motor, and how DOE should specify this
quantity.
Issue 23: DOE requests comment and
input on a method to determine fullload, or rated, horsepower of a motor
based on the breakdown torque of a
motor as specified in NEMA MG 1–
2014.
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Issue 24: DOE requests comment and
input on a method to determine fullload, or rated, horsepower of a motor
based on the load which results in a
temperature rise associated with the
insulation class of the motor (i.e.,
service factor load). DOE also requests
comment on whether all motors have an
associated NEMA insulation class (i.e.,
A, B, F, and H) that is known by the
manufacturer, and if it is not known if
there are methods a manufacturer can
use to determine the insulation class.
DOE also requests comment on the
temperature rise that should be
associated with each insulation class for
this method (e.g., values from NEMA
MG 1–2014 or IEEE 112–2004).
3. Represented Value
The procedure for determining the
represented value of average full-load
efficiency of a small electric motor can
be found at 10 CFR 431.445.
Specifically, DOE provides sampling
provisions that must be used when
determining the average full-load
efficiency of a basic model through
testing. On June 24, 2016, DOE
published a separate notice of proposed
rulemaking on certification, compliance,
labeling, and enforcement for electric
motors and small electric motors, which
included a proposal to revise the
sampling provisions for small electric
motors to conform with the sampling
provisions for other types of covered
product and equipment at 10 CFR part
429, subpart B. 81 FR 41378.
DOE plans to investigate whether the
proposed sampling provision for
determining the represented value 11 of
a small electric motor could apply to the
new motors DOE may consider
regulating or whether the current
sampling provisions need to be revised.
DOE’s preference is that all motors
discussed in section II.A be subject to
the same sampling provisions and
represented value calculation.
Issue 25: DOE requests comment on
applying (1) the sampling plan in DOE’s
separate notice of proposed rulemaking
(81 FR 41378, [June 24, 2016]) and (2)
the represented value calculation for
small electric motors to new motors
DOE may consider regulating.
D. Other Test Procedure Topics
In addition to the issues identified
earlier in this document, DOE welcomes
comment on any other aspect of the
existing test procedures for small
electric motors not already addressed by
the specific areas identified in this
11 A represented value is a figure characterizing
motor energy efficiency for the purposes of
marketing or certifying performance to DOE.
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35477
document. DOE particularly seeks
information that would improve the
repeatability, reproducibility, and
consumer representativeness of the test
procedures. DOE also requests
information that would help DOE create
a procedure that would limit
manufacturer test burden through
streamlining or simplifying testing
requirements. Comments regarding
repeatability and reproducibility are
also welcome.
DOE also requests feedback on any
potential amendments to the existing
test procedure that could be considered
to address impacts on manufacturers,
including small businesses. Regarding
the Federal test method, DOE seeks
comment on the degree to which the
DOE test procedure should consider and
be harmonized with the most recent
relevant industry standards for small
electric motors and whether there are
any changes to the Federal test method
that would provide additional benefits
to the public.
Additionally, DOE requests comment
on whether the existing test procedures
limit a manufacturer’s ability to provide
additional features to consumers of
small electric motors. DOE particularly
seeks information on how the test
procedures could be amended to reduce
the cost of these new or additional
features and make it more likely that
such features are included on small
electric motors.
III. Public Participation
DOE invites all interested parties to
submit in writing by August 30, 2017,
comments and information on matters
addressed in this RFI and on other
matters relevant to DOE’s consideration
of new and/or amended test procedure
for small electric motors and electric
motors. These comments and
information will aid in the development
of a test procedure NOPR for small
electric motors and electric motors if
DOE determines that amended test
procedures may be appropriate for these
products.
Submitting comments via https://
www.regulations.gov. The https://
www.regulations.gov Web page will
require you to provide your name and
contact information. Your contact
information will be viewable to DOE
Building Technologies staff only. Your
contact information will not be publicly
viewable except for your first and last
names, organization name (if any), and
submitter representative name (if any).
If your comment is not processed
properly because of technical
difficulties, DOE will use this
information to contact you. If DOE
cannot read your comment due to
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technical difficulties and cannot contact
you for clarification, DOE may not be
able to consider your comment.
However, your contact information
will be publicly viewable if you include
it in the comment or in any documents
attached to your comment. Any
information that you do not want to be
publicly viewable should not be
included in your comment, nor in any
document attached to your comment.
Persons viewing comments will see only
first and last names, organization
names, correspondence containing
comments, and any documents
submitted with the comments.
Do not submit to https://
www.regulations.gov information for
which disclosure is restricted by statute,
such as trade secrets and commercial or
financial information (hereinafter
referred to as Confidential Business
Information (CBI)). Comments
submitted through https://
www.regulations.gov cannot be claimed
as CBI. Comments received through the
Web site will waive any CBI claims for
the information submitted. For
information on submitting CBI, see the
Confidential Business Information
section.
DOE processes submissions made
through https://www.regulations.gov
before posting. Normally, comments
will be posted within a few days of
being submitted. However, if large
volumes of comments are being
processed simultaneously, your
comment may not be viewable for up to
several weeks. Please keep the comment
tracking number that https://
www.regulations.gov provides after you
have successfully uploaded your
comment.
Submitting comments via email, hand
delivery, or mail. Comments and
documents submitted via email, hand
delivery, or mail also will be posted to
https://www.regulations.gov. If you do
not want your personal contact
information to be publicly viewable, do
not include it in your comment or any
accompanying documents. Instead,
provide your contact information on a
cover letter. Include your first and last
names, email address, telephone
number, and optional mailing address.
The cover letter will not be publicly
viewable as long as it does not include
any comments.
Include contact information each time
you submit comments, data, documents,
and other information to DOE. If you
submit via mail or hand delivery, please
provide all items on a CD, if feasible. It
is not necessary to submit printed
copies. No facsimiles (faxes) will be
accepted.
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Comments, data, and other
information submitted to DOE
electronically should be provided in
PDF (preferred), Microsoft Word or
Excel, WordPerfect, or text (ASCII) file
format. Provide documents that are not
secured, written in English and free of
any defects or viruses. Documents
should not contain special characters or
any form of encryption and, if possible,
they should carry the electronic
signature of the author.
Campaign form letters. Please submit
campaign form letters by the originating
organization in batches of between 50 to
500 form letters per PDF or as one form
letter with a list of supporters’ names
compiled into one or more PDFs. This
reduces comment processing and
posting time.
Confidential Business Information.
According to 10 CFR 1004.11, any
person submitting information that he
or she believes to be confidential and
exempt by law from public disclosure
should submit via email, postal mail, or
hand delivery two well-marked copies:
one copy of the document marked
confidential including all the
information believed to be confidential,
and one copy of the document marked
‘‘non-confidential’’ with the information
believed to be confidential deleted.
Submit these documents via email or on
a CD, if feasible. DOE will make its own
determination about the confidential
status of the information and treat it
according to its determination.
Factors of interest to DOE when
evaluating requests to treat submitted
information as confidential include (1) a
description of the items, (2) whether
and why such items are customarily
treated as confidential within the
industry, (3) whether the information is
generally known by or available from
other sources, (4) whether the
information has previously been made
available to others without obligation
concerning its confidentiality, (5) an
explanation of the competitive injury to
the submitting person which would
result from public disclosure, (6) when
such information might lose its
confidential character due to the
passage of time, and (7) why disclosure
of the information would be contrary to
the public interest.
It is DOE’s policy that all comments
may be included in the public docket,
without change and as received,
including any personal information
provided in the comments (except
information deemed to be exempt from
public disclosure).
DOE considers public participation to
be a very important part of the process
for developing test procedures. DOE
actively encourages the participation
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and interaction of the public during the
comment period in each stage of the
rulemaking process. Interactions with
and between members of the public
provide a balanced discussion of the
issues and assist DOE in the rulemaking
process. Anyone who wishes to be
added to the DOE mailing list to receive
future notices and information about
this rulemaking should contact
Appliance and Equipment Standards
Program staff at (202) 586–6636 or via
email at
ApplianceStandardsQuestions@
ee.doe.gov.
Issued in Washington, DC, on July 14,
2017.
Kathleen B. Hogan,
Deputy Assistant Secretary for Energy
Efficiency, Energy Efficiency and Renewable
Energy.
[FR Doc. 2017–15848 Filed 7–28–17; 8:45 am]
BILLING CODE 6450–01–P
DEPARTMENT OF THE TREASURY
Office of the Comptroller of the
Currency
12 CFR Part 34
[Docket No. OCC–2017–0011]
RIN 1557–AE18
FEDERAL RESERVE SYSTEM
12 CFR Part 225
[Docket No. R–1568; RIN 7100 AE–81]
FEDERAL DEPOSIT INSURANCE
CORPORATION
12 CFR Part 323
RIN 3064 AE–56
Real Estate Appraisals
Office of the Comptroller of the
Currency, Treasury (OCC); Board of
Governors of the Federal Reserve
System (Board); and Federal Deposit
Insurance Corporation (FDIC).
ACTION: Notice of proposed rulemaking
and request for comment.
AGENCY:
The OCC, Board, and FDIC
(collectively, the agencies) are inviting
comment on a proposed rule to amend
the agencies’ regulations requiring
appraisals of real estate for certain
transactions. The proposal would
increase the threshold level at or below
which appraisals would not be required
for commercial real estate transactions
from $250,000 to $400,000. This
proposed change to the appraisal
threshold reflects comments the
SUMMARY:
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Agencies
[Federal Register Volume 82, Number 145 (Monday, July 31, 2017)]
[Proposed Rules]
[Pages 35468-35478]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2017-15848]
========================================================================
Proposed Rules
Federal Register
________________________________________________________________________
This section of the FEDERAL REGISTER contains notices to the public of
the proposed issuance of rules and regulations. The purpose of these
notices is to give interested persons an opportunity to participate in
the rule making prior to the adoption of the final rules.
========================================================================
Federal Register / Vol. 82, No. 145 / Monday, July 31, 2017 /
Proposed Rules
[[Page 35468]]
DEPARTMENT OF ENERGY
10 CFR Part 431
[EERE-2017-BT-TP-0047]
Energy Conservation Program: Test Procedure for Small Electric
Motors and Electric Motors
AGENCY: Office of Energy Efficiency and Renewable Energy, Department of
Energy.
ACTION: Request for information (RFI).
-----------------------------------------------------------------------
SUMMARY: The U.S. Department of Energy (DOE) is initiating a data
collection process through this request for information to consider
whether to amend DOE's test procedure for small electric motors, and
whether new test procedures are needed for motors beyond those subject
to the existing Federal test procedures. To inform interested parties
and to facilitate this process, DOE has gathered data, identifying
several issues associated with the currently applicable test procedure
on which DOE is interested in receiving comment. The issues outlined in
this document mainly concern applicability of the test procedure to
additional motor categories (by topology, horsepower, non-standard
construction, etc.), definitions, industry test methods, additional
test procedure clarifications, and any additional topics that may
inform DOE's decisions in a future test procedure rulemaking, including
methods to reduce regulatory burden while ensuring the procedure's
accuracy. DOE welcomes written comments from the public on any subject
within the scope of this document (including topics not raised in this
RFI).
DATES: Written comments and information are requested and will be
accepted on or before August 30, 2017.
ADDRESSES: Interested persons are encouraged to submit comments using
the Federal eRulemaking Portal at https://www.regulations.gov. Follow
the instructions for submitting comments. Alternatively, interested
persons may submit comments, identified by docket number EERE-2017-BT-
TP-0047, by any of the following methods:
Federal eRulemaking Portal: https://www.regulations.gov.
Follow the instructions for submitting comments.
Email: SmallElectricMotors2017TP0047@ee.doe.gov. Include
docket number EERE-2017-BT-STD-0047 in the subject line of the message.
Postal Mail: Appliance and Equipment Standards Program,
U.S. Department of Energy, Building Technologies Office, Mailstop EE-
5B, 1000 Independence Avenue SW., Washington, DC 20585-0121. If
possible, please submit all items on a compact disc (CD), in which case
it is not necessary to include printed copies.
Hand Delivery/Courier: Appliance and Equipment Standards
Program, U.S. Department of Energy, Building Technologies Office, 950
L'Enfant Plaza SW., 6th Floor, Washington, DC 20024. Telephone: (202)
586-6636. If possible, please submit all items on a CD, in which case
it is not necessary to include printed copies.
No telefacsimilies (faxes) will be accepted. For detailed
instructions on submitting comments and additional information on this
process, see section III of this document.
Docket: The docket for this activity, which includes Federal
Register notices, comments, and other supporting documents/materials,
is available for review at https://www.regulations.gov. All documents in
the docket are listed in the https://www.regulations.gov index. However,
some documents listed in the index, such as those containing
information that is exempt from public disclosure, may not be publicly
available.
The docket Web page can be found at https://www.regulations.gov/#!docketDetail;D= EERE-2017-BT-TP-0047. The docket Web page will
contain simple instructions on how to access all documents, including
public comments, in the docket. See section III for information on how
to submit comments through https://www.regulations.gov.
FOR FURTHER INFORMATION CONTACT: Mr. Jeremy Dommu, U.S. Department of
Energy, Office of Energy Efficiency and Renewable Energy, Building
Technologies Program, EE-5B 1000 Independence Avenue SW., Washington,
DC 20585-0121. Telephone: (202) 586-9870. Email:
ApplianceStandardsQuestions@ee.doe.gov.
Mary Greene, U.S. Department of Energy, Office of the General
Counsel, GC-33, 1000 Independence Avenue SW., Washington, DC 20585-
0121. Telephone: (202) 586-1817. Email: mary.greene@hq.doe.gov.
For further information on how to submit a comment, review other
public comments and the docket, contact the Appliance and Equipment
Standards Program staff at (202) 586-6636 or by email:
ApplianceStandardsQuestions@ee.doe.gov.
SUPPLEMENTARY INFORMATION:
Table of Contents
I. Introduction
A. Authority and Background
B. Rulemaking History
II. Request for Information and Comments
A. Equipment Categories Considered in This Request for
Information
1. Small Electric Motors
2. Motors Categories Not Currently Subject to Test Procedures
3. Exemptions
4. Motor Boundary
5. Motors Used in Dedicated Purpose Pool Pumps
B. Metric
C. Test Procedures
1. Method
2. Motor Horsepower
3. Represented Value
D. Other Test Procedure Topics
III. Public Participation
I. Introduction
Electric motors are included in the list of ``covered equipment''
for which DOE is authorized to establish and amend energy conservation
standards and test procedures. (42 U.S.C. 6311(1)(A)). Additionally,
EPCA directed DOE, subject to a determination of feasibility and
justification, to establish energy conservation standards and test
procedure for small electric motors. (42 U.S.C. 6317(b)) DOE's test
procedures for small electric motors are prescribed at subpart X of 10
CFR part 431. DOE's test procedures for electric motors are prescribed
at appendix B to subpart B of part 431. The following sections discuss
DOE's authority to establish and amend test procedures for small
electric motors, as well as provide relevant background information
regarding DOE's consideration of test procedures for this equipment.
[[Page 35469]]
A. Authority and Background
The Energy Policy and Conservation Act of 1975 (``EPCA'' or ``the
Act''),\1\ Public Law 94-163 (42 U.S.C. 6291-6317, as codified), among
other things, authorizes DOE to regulate the energy efficiency of a
number of consumer products and industrial equipment. Title III, Part C
of EPCA, which for editorial purposes was re-designated as Part A-1
upon incorporation into the U.S. Code (42 U.S.C. 6311-6317),
established the Energy Conservation Program for Certain Industrial
Equipment, which sets forth a variety of provisions designed to improve
energy efficiency. This equipment includes small electric motors and
electric motors, the subject of this RFI. (42 U.S.C. 6317(b) and 42
U.S.C. 6311(1)(A))
---------------------------------------------------------------------------
\1\ All references to EPCA in this document refer to the statute
as amended through the Energy Efficiency Improvement Act of 2015
(EEIA 2015), Public Law 114-11 (April 30, 2015).
---------------------------------------------------------------------------
Under EPCA, the energy conservation program consists essentially of
four parts: (1) Testing, (2) labeling, (3) establishing Federal energy
conservation standards, and (4) certification and enforcement
procedures. Provisions of the Act include definitions (42 U.S.C. 6311),
energy conservation standards (42 U.S.C. 6313), test procedures (42
U.S.C. 6314), labeling provisions (42 U.S.C. 6315), and the authority
to require information and reports from manufacturers (42 U.S.C. 6316).
EPCA includes specific authority to establish test procedures and
standards for electric motors and small electric motors. (42 U.S.C.
6313(b), 42 U.S.C. 6314(a)(5) and 42 U.S.C. 6317(b))
Federal energy efficiency requirements for covered products
established under EPCA generally supersede State laws and regulations
concerning energy conservation testing, labeling, and standards. (See
42 U.S.C. 6316(a) and (b); 42 U.S.C. 6297) DOE may, however, grant
waivers of Federal preemption for particular State laws or regulations,
in accordance with the procedures and other provisions of EPCA. (See 42
U.S.C. 6316(b)(2)(D))
The Federal testing requirements consist of test procedures that
manufacturers of covered equipment must use as the basis for: (1)
Certifying to DOE that their equipment complies with the applicable
energy conservation standards adopted pursuant to EPCA (See 42 U.S.C.
6316(a); 42 U.S.C. 6295(s)), and (2) making representations about the
efficiency of that equipment. (42 U.S.C. 6314(d)) Similarly, DOE must
use these test procedures to determine whether the equipment complies
with relevant standards promulgated under EPCA. (See 42 U.S.C. 6316(a);
(42 U.S.C. 6295(s))
Under 42 U.S.C. 6314, EPCA sets forth the criteria and procedures
DOE must follow when prescribing or amending test procedures for
covered equipment. EPCA generally requires that any test procedures
prescribed or amended under this section must be reasonably designed to
produce test results which reflect energy efficiency, energy use, and
estimated operating costs of a covered equipment during a
representative average use cycle or period of use and requires that
test procedures not be unduly burdensome to conduct. (See 42 U.S.C.
6314(a)(2))
In addition, if DOE determines that a test procedure amendment is
warranted, it must publish proposed test procedures and offer the
public an opportunity to present oral and written comments on them. (42
U.S.C. 6314(b))
EPCA also requires that, at least once every 7 years, DOE evaluate
test procedures to determine whether amended test procedures would more
accurately or fully comply with the requirements for the test
procedures to not be unduly burdensome to conduct and be reasonably
designed to produce test results that reflect energy efficiency, energy
use, and estimated operating costs during a representative average use
cycle. (See 42 U.S.C. 6314(a)(1)(A)) If amended test procedures are
appropriate, DOE must publish a final rule to incorporate the
amendments. If DOE determines that test procedure revisions are not
appropriate, DOE must publish its determination not to amend the test
procedures. DOE is publishing this RFI to collect data and information
to inform a potential test procedure rulemaking to satisfy the 7-year
review requirement specified in EPCA, which required that DOE publish,
by July 07, 2016, either a final rule amending the test procedures for
small electric motors, or a determination that amended test procedures
are not required. (See 42 U.S.C. 6314(a)(1))
B. Rulemaking History
DOE's current test procedure for small electric motors is located
at 10 CFR 431.444. DOE prescribed test procedures for small electric
motors on July 7, 2009. 74 FR 32059.\2\ The current test procedures
incorporate the Institute of Electrical and Electronics Engineers
(IEEE) Standard 114 and IEEE Standard 112 Test Methods A and B, and CSA
C747-09 and CSA C390-10 as alternative test procedures. (See 10 CFR
431.444(b))
---------------------------------------------------------------------------
\2\ On May 4, 2012, DOE made clarifying edits and updates to the
test procedures and provided procedures for DOE designation of
nationally recognized certification programs. 77 FR 26608.
---------------------------------------------------------------------------
On June 24, 2016, DOE published a separate notice of proposed
rulemaking regarding the certification, compliance, labeling, and
enforcement of energy conservation standards for electric motors and
small electric motors. 81 FR 41378 (June 2016 CCE NOPR). In the June
2016 CCE NOPR, DOE proposed to bring certification, compliance, and
enforcement (CCE) regulations for electric motors and small electric
motors under the general regulatory scheme of DOE's existing
certification, compliance, and enforcement regulations for other
covered products and equipment. See id. Additionally, the June 2016 CCE
NOPR proposed specific sampling plans, certification of efficiency
requirements, independent testing laboratory and certification program
requirements, and labeling requirements for electric motors and small
electric motors. See id.
II. Request for Information and Comments
In the following sections, DOE has identified a variety of issues
on which it seeks input to aid in considering whether or not new or
amended test procedures for small electric motors. Specifically, DOE is
requesting comment on any opportunities to streamline and simplify
testing requirements for small electric motors.
Additionally, DOE welcomes comments on other issues relevant to the
conduct of this process that may not specifically be identified in this
document. In particular, DOE notes that under Executive Order 13771,
``Reducing Regulation and Controlling Regulatory Costs,'' Executive
Branch agencies such as DOE are directed to manage the costs associated
with the imposition of expenditures required to comply with Federal
regulations. See 82 FR 9339 (Feb. 3, 2017). Pursuant to that Executive
Order, DOE encourages the public to provide input on measures DOE could
take to lower the cost of its regulations applicable to small electric
motors consistent with the requirements of EPCA. DOE also requests
comment on the benefits and burdens of adopting any industry/voluntary
consensus-based or other appropriate test procedure, without
modification.
A. Equipment Categories Considered in This Request for Information
1. DOE is considering revising the test procedures for small
electric motors and establishing new test procedures for electric
motors beyond those currently subject to existing test procedures.
[[Page 35470]]
Sections II.A.1 and II.A.2 describe both of these categories. Small
Electric Motors
DOE regulations define ``electric motor'' as a machine that
converts electrical power into rotational mechanical power. 10 CFR
431.12. EPCA defines the term ``small electric motor'' as a NEMA
general-purpose alternating current single-speed induction motor, built
in a two-digit frame number series in accordance with National
Electrical Manufacturers Association (NEMA) Standards Publication MG 1-
1987 (MG 1 1987). (42 U.S.C. 6311(13)(G))
Subpart X of 10 CFR part 431 includes test procedures for the three
topologies of small electric motors: Capacitor-start induction-run
(CSIR), capacitor-start capacitor-run (CSCR), and certain polyphase
motors. In any potential rulemaking, DOE will consider amendments to
the test procedures for a ``small electric motor'' as defined at 10 CFR
431.442. Were DOE to determine that a motor did not meet the EPCA
definition of ``small electric motor'' and, therefore, is not subject
to test procedures in subpart X of 10 CFR part 431, DOE may determine
that such a motor would still be considered for test procedures as an
``electric motor.'' \3\
---------------------------------------------------------------------------
\3\ While the motors discussed in this RFI are likely covered as
``electric motors,'' DOE is authorized to determine whether ``other
motors'' are to be included as covered equipment and subject to
standards. (See 42 U.S.C. 6311(2)(B)(xiii); 42 U.S.C. 6312(b))
---------------------------------------------------------------------------
2. Motors Categories Not Currently Subject to Test Procedures
DOE may consider setting test procedures for motors that are
considered ``small'' by customers and the electric motor industry, but
are not currently subject to the small electric motor test procedures.
These motors may have similarities to motors that are currently
regulated as small electric motors (such as horsepower) and may be used
in similar applications. However despite these similarities, DOE is
still determining whether these motors would be regulated as small
electric motor or as electric motors under DOE regulations.
Regardless of the category under which they are regulated, if test
procedures are adopted for these motors, DOE would define those
categories (and exemptions) using technical and physical
characteristics of those motors. DOE expects that this approach would
describe the applicability of test procedures to particular motors
without reference to statements of marketing or design intent.
In order to identify whether test procedures should be considered
for additional motors, DOE is first reviewing which motors are and are
not already subject to regulations. Motors of enclosed construction,
non-continuous duty, and not meeting certain torque requirements are
not addressed by the regulations in subpart B or subpart X of 10 CFR
part 431. DOE may consider setting test procedures for some of these
motors. Table II-2 lists the motor topologies that may be considered
for test procedures.
Section 431.25 to subpart B of 10 CFR part 431 subjects certain 2-
digit NEMA frame (56-frame) polyphase motors of enclosed construction
and certain 3-digit polyphase motors to energy conservation standards.
The electric motors regulated at 10 CFR 431.25 currently exclude two
groups of motors: (1) Those with less than one horsepower and (2)
polyphase motors of a 2-digit frame size (other than certain NEMA 56-
frame size enclosed motors) with a horsepower greater than or equal to
one. DOE may consider establishing test procedures for some of these
motors with the intent is to primarily focus on motors considered small
by customers and industry.
Only motors with a power rating of greater than or equal to 0.25
horsepower and less than or equal to 3 horsepower are subject to the
regulations in subpart X to 10 CFR part 431. Should DOE consider a
potential test procedure rulemaking, DOE does not expect at this time
that it would propose revisions to the test procedures for polyphase
enclosed motors greater than or equal to one horsepower in the NEMA 56-
frame size because some of these motors are currently regulated in
Sec. 431.25 of subpart B to 10 CFR part 431.
If DOE determines to propose test procedures for categories of
motors not currently subject to test procedures, DOE will reconsider a
lower horsepower limit. Upon reviewing manufacturer catalogs, DOE found
that the lowest horsepower with multiple manufacturers offering a wide
range of motors was 0.125 hp. DOE will consider a minimum horsepower
limit in any potential rulemaking.
Similarly, DOE would consider an upper horsepower limit in any
rulemaking. The 3 hp upper limit for single-phase motors is based on a
2006 determination that DOE intends to review. 71 FR 38799 (July 10,
2006). DOE has since found that single-phase, 2-digit NEMA frame size
motors that exceed 3 hp are available, along with single-phase motors
inclusive of all frame sizes with up to 15 hp. DOE also found that
polyphase 2-digit NEMA frame size motors, excluding those currently
regulated at 10 CFR 431.25, exist up to 5 hp.
Based on the existing definitions discussed above, Table II-1 lists
the motor categories, by horsepower and frame size, that may be
considered for test procedures in any rulemaking. Frame size is not
used as a limiting factor except in the case of polyphase motors for
purposes of preventing overlap with the electric motors regulations
listed at 10 CFR 431.25. The final list of motors subject to test
procedures may be more limited than Table II-1 based on properties
other than horsepower and frame size, as discussed later in this
section.
Table II-1--Motors Under Consideration for a Potential Test Procedure
Rulemaking
------------------------------------------------------------------------
Phase count Horsepower Frame size
------------------------------------------------------------------------
Single......................... >=0.125 hp and All.
<=15 hp.
Polyphase...................... >=0.125 hp and <=5 2-digit.*
hp.
Polyphase...................... <1 hp............. All.
------------------------------------------------------------------------
* Polyphase enclosed motors >=1 hp, of the 56-frame size are not under
consideration for revised test procedures, as certain ones of these
motors were included in a separate rulemaking, and are regulated at 10
CFR 431.25.
A variety of motor topologies exist within the range described in
Table II-1, including topologies (e.g., polyphase) that meet the
regulatory definition of small electric motor and others (e.g., shaded
pole) that are not currently regulated as small electric motors or
electric motors. DOE may use a subset of these motor topologies to
describe the
[[Page 35471]]
motors subject to test procedures in a potential final rule. Table II-2
lists various categories of motors that could potentially be considered
for test procedures within the motor horsepower and frame sizes
outlined in Table II-1. Certain subcategories of the motors listed in
Table II-2 meet the definition of ``small electric motor'' and are
subject to regulations at subpart X of 10 CFR part 431. Table II-3
presents a shorter list of categories of motors that DOE has
preliminarily identified as representing potential interest because of
their volume of shipments, ability to be tested using existing test
procedures, and energy consumption.
[GRAPHIC] [TIFF OMITTED] TP31JY17.003
Table II-3--Primary Motor Categories Based on Motor Topology
----------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------------------------------------------------
Permanent-Split Capacitor....................... Polyphase induction, squirrel cage.
Capacitor-Start................................. Reluctance Synchronous.
Shaded-Pole..................................... Permanent Magnet.
Line-Start Permanent Magnet..................... Switched Reluctance.
Split-phase..................................... Electronically Commutated Motor.
Permanent Magnet Synchronous ..............................................................
----------------------------------------------------------------------------------------------------------------
Table II-4 lists various mechanical, electrical, and other design
characteristics of motors such as the ability to operate submerged in a
liquid (i.e., submersible motors). DOE may rely on some of these design
characteristics to describe the categories of motors that would be
considered in a potential test procedure rulemaking.
Table II-4--Motor Categories Based on Motor Characteristics
------------------------------------------------------------------------
-------------------------------------------------------------------------
Horsepower.
Number of Speeds.
[[Page 35472]]
Duty Rating (e.g., continuous).
Enclosure Construction (e.g., Air Over, TEFC, TENV).
AC input frequency (60 Hz/50 Hz).
Input waveform (AC or DC).
Frame Size.
Voltage.
Service Factor.
Flange and Endshields.
Shaft (e.g., vertical shaft, special shaft).
Base (e.g., non-standard base, mounting configuration).
Presence of moisture-resistant, sealed, or encapsulated windings.
Bearing construction.
Motor Component Assembly (Partial Motor).
Presence of a Brake (Brake Motor).
Presence of Gear Box (Gearmotors).
Presence of Controls (e.g., variable-speed drives).
Close-coupled pump motors.
Submersible Motors.
------------------------------------------------------------------------
The existing regulations for electric motors apply to a subset of
electric motors characterized by nine design elements listed at 10 CFR
431.25(g), with the exceptions listed at 10 CFR 431.25(l). DOE could
consider establishing a similar list of characteristics to delimit the
categories of motors included in any potential small electric motor
rulemakings, such as:
(1) Horsepower;
(2) Number of speeds (single, multiple, continuously variable);
(3) Motor topology;
(4) Duty rating;
(5) Enclosure construction;
(6) 60 hertz (Hz) sinusoidal power for alternating current (AC)
motors;
(7) Input waveform (either AC or direct current (DC));
(8) Phase count (single-phase, polyphase);
(9) Frame size; and
(10) Other criteria presented in Table II-4.
Motors can have different speed capabilities, including single,
multi, or (continuously) variable speeds. Variable and multi-speed
motors can be tested with existing industry standards (see Table II-6)
at a variety of operating points, but no single metric currently exists
to quantify the performance of the variable or multi-speed motor.
Variable or multi-speed capability provides the ability to save energy
by more closely matching motor output to a varying load. DOE is
considering whether to consider all speed capabilities in setting any
potential new test procedures.
Motors can also have different topologies as listed in Table II-2.
DOE has found test procedures that apply to all of these topologies for
both induction and non-induction motors (see section II.C.1). Non-
induction motors (such as permanent magnet motors) are often marketed
as more efficient substitutes for induction motors, but currently have
a lower market share. DOE is considering whether all motor topologies
would be analyzed for potential new test procedures.
Motors can be described by their duty type, using either NEMA or
IEC nomenclature. Duty type describes the operating profile the motor
is designed to handle. For example, a continuous duty motor can operate
for long periods of time at a steady load between required shut-down
periods while intermittent-duty motors accumulate fewer annual
operating hours Similar to the electric motors regulations described in
subpart B of 10 CFR part 431, DOE is considering analyzing only
continuous duty type motors for potential test procedures. DOE will
consider whether any IEC duty types other than IEC duty type S1
correspond to a continuous duty type. For example, IEC duty types S9
and S10 can include an S1 reference rating, and may also be operated
continuously.
Motors can be described by their enclosure construction--i.e. open
and enclosed--and by many subcategories (e.g., open drip proof, totally
enclosed non-ventilated, and totally enclosed air-over). Enclosure
construction tends to describe both the level of ingress protection
(i.e., protection from dust or splashing) and the cooling method (such
as active air cooling via an integral fan or passive cooling via
natural convection). Similar to the electric motors regulations
described in subpart B of 10 CFR part 431, DOE is considering analyzing
all enclosure constructions for potential new or revised test
procedures.
An ``air-over'' motor is a unique variety of enclosure construction
relating to a cooling method in which the motor is cooled by an
airstream provided by a device or system separate from the motor. At
the time of the December 2013 electric motors test procedure final
rule, DOE lacked the necessary data to develop a test procedure for
air-over motors. 78 FR 75973-75975 (December 13, 2013). As discussed in
section II.C.1, DOE is investigating the potential to establish a test
procedure for air-over motors.
A revised definition of air-over motor based on the physical
features of a given motor may be needed to support potential test
procedure. As part of the December 2013 electric motors test procedure
final rule, DOE defined the term ``air-over electric motor'' as an
electric motor rated to operate in and be cooled by the airstream of a
fan or blower that is not supplied with the motor and whose primary
purpose is providing airflow to an application other than the motor
driving it. 78 FR 75973-75975. In other words, air-over electric motors
do not have a factory-attached fan and require a separate means of
forcing air over the frame of the motor. However, DOE notes that the
absence of a fan is not a differentiating feature as some motors
categories, such as totally-enclosed non-ventilated (TENV) motors, do
not have internal fans or blowers. In terms of physical construction,
DOE did not find any differences between air-over motors and non-air-
over motors. For example, there is little difference between a totally-
enclosed fan-cooled motor (TEFC) and a totally-enclosed air-over motor
(TEAO). Based on these observations, DOE understands that what
differentiates air-over motors from non-air-over motors is that they
require the application of external cooling by a free flow of air to
prevent overheating during continuous operation. In a TEAO, without the
application of free flowing air, the internal motor winding
temperatures would exceed the maximum permissible temperature. The risk
of overheating can be verified by observing whether the motor's
temperature rises during a rated load temperature test instead of
stabilizing. During a rated load temperature test the motor is loaded
at the rated full load using a dynamometer until it is thermally
stable. The current industry standards incorporated by reference in the
existing DOE small electric motors test procedure each contain a
portion describing a rated load temperature test. Thermal stability is
defined as the condition where the motor temperature does not change by
more than 1 [deg] Cover 30 minutes or 15 minutes depending on the motor
category (See section 5.8.4.4 of IEEE \4\ Std 112-2004, (IEEE 112-
2004), ``IEEE Standard Test Procedure for Polyphase Induction Motors
and Generators,'' and section 10.3.1.3 of IEEE Std 114-2010, (IEEE 114-
2010), ``IEEE Standard Test Procedure for Single-Phase Induction
Motors''). DOE further notes that specifying that the external cooling
is obtained by a free-flow of air differentiates air-over motors from
other totally-enclosed pipe-ventilated motors. Based on these findings,
DOE is considering defining an air-over motor as a motor that does not
thermally stabilize without the application of external cooling by a
free flow of air
[[Page 35473]]
during a rated temperature test according to IEEE 112-2004; CSA \5\
C747-09 (Reaffirmed 2014), (CSA C747-09), ``Energy Efficiency Test
Methods Small Motors''; or CSA C390-09 (Reaffirmed 2015), (CSA C390-
10), ``Test Methods, Marking Requirements, and Energy Efficiency Levels
for Three-phase Induction Motors'' for polyphase motors; or IEEE 114-
2010 or CSA C747-09, for single-phase motors.
---------------------------------------------------------------------------
\4\ Institute for Electrical and Electronics Engineers.
\5\ CSA Group.
---------------------------------------------------------------------------
AC motors are designed to operate at a particular frequency. In the
United States, AC power is delivered at 60 Hz. For this reason, DOE is
considering whether to continue to limit the scope of a potential test
procedure to only AC motors that are designed to operate at 60 Hz. DOE
notes that this approach includes motors designed to operate at 60 Hz
that are also capable of operating at other frequencies (e.g., 50 Hz).
Motors can be designed to operate at an input waveform of AC or DC.
DOE has found test procedures that apply to both AC and DC motors. DC
motors must be fed a DC waveform, but some DC motors are advertised as
substitutes for AC motors because a rectifier can be placed between the
AC power source and the DC motor to convert the AC power to DC. In many
cases, the rectifier may be integrated with the motor, creating a drop-
in replacement for AC motors (i.e., it can be used with the existing AC
power supply). DOE is considering whether DC motors should be analyzed
in a potential test procedure rulemaking.
Motors also are constructed with a particular frame size. Frame
size most commonly refers to a height measurement between the
centerline of the shaft and the bottom of the feet, but can also
describe a motor's axial length. NEMA frame sizes are described in 2-,
3-, and 4-digit naming conventions. DOE has established regulations for
small electric motors built in two-digit frame number series according
to NEMA MG 1-1987 (i.e., 42-, 48-, and 56-frame motors), and IEC
equivalents. DOE is aware of motor topologies in Table II-3 within the
horsepower ranges in Table II-1 that are available in additional frame
sizes (e.g., 3-digit). Due to the availability of additional frame
sizes for topologies and horsepower ratings that may be considered for
test procedures in a potential rulemaking, DOE is considering not using
frame size or the frame size naming convention (NEMA digit count) as a
means of limiting the categories of motors analyzed for a potential
rulemaking, to the extent that this would not overlap with existing
regulations for electric motors at 10 CFR 431.25.
Issue 1: DOE seeks comment, data, information and justification
regarding a minimum and maximum horsepower limit for motors for which
DOE may consider test procedures.
Issue 2: DOE seeks comment, data, and information about any
additional motor category and associated horsepower range, frame sizes,
and/or any additional features (such as voltage and service factor)
that should be considered in a possible test procedures rulemaking and
why (e.g., motor categories and features presented in Table II-1, Table
II-2, Table II-3, and Table II-4). DOE is also interested in detailed
information on whether there would be a significant test burden
resulting from requiring testing of such motors--and if so, the nature
and extent of that burden.
Issue 3: DOE requests comment on the primary motor topologies
included in Table II-3, including whether they should be considered, or
not, in a possible test procedures rulemaking and why. DOE seeks
comment on any motor topologies not listed that DOE should consider
including in a possible test procedures rulemaking. DOE is interested
in information on the potential test burden associated with testing
such motors.
Issue 4: DOE seeks input on how an air-over motor could be
identified based on physical and technical features. DOE requests
comment on whether air-over motors could be defined based on their
inability to thermally stabilize without the application of external
cooling by a free flow of air during a rated temperature test according
to either IEEE 112-2004, CSA C747-09, or CSA C390-10 for polyphase
motors; or IEEE 114-2010 or CSA C747-09 for single-phase motors. In
addition, DOE requests comment and information on whether all motors
currently sold as ``air-over motors'' and which percentage of the
market would meet this definition.
3. Exemptions
In a potential future rulemaking, any exemption from test
procedures would likely be based on specific physical or design
criteria that can be identified at the point of manufacture (e.g.,
frame size, enclosure, service factor), and not on the advertised
application of the motor. DOE would consider whether the exemptions
from the existing regulations for electric motors at 10 CFR 431.25(h)-
(j) would also apply to the motors under consideration for regulation
in a potential test procedure rulemaking. These exemptions, outlined at
10 CFR 431.25(l), are as follows:
Air-over electric motors;
Component sets of an electric motor;
Liquid-cooled electric motors;
Submersible electric motors; and
Inverter-only electric motors.
DOE adopted definitions for ``air-over electric motors,''
``component sets,'' ``liquid-cooled electric motors,'' ``submersible
electric motors,'' and ``inverter-only electric motors'' at 10 CFR
431.12. If DOE undertakes a test procedure rulemaking, it will evaluate
the merits of adopting similar definitions and exemptions for motors
with similar features. DOE will further investigate whether these
categories of motors exist within the range of motors considered in any
such rulemakings. For liquid-cooled, inverter-only, and submersible
motors, DOE reviewed online manufacturer catalogs and one distributor's
Web site and found at least one model corresponding to each of these
three categories of motors that was within the horsepower ranges and
frame sizes described in Table II-1.
Issue 5: DOE seeks comment, data, and information about any motor
category that should be considered for exemption from a possible test
procedure rulemaking and information providing justification for such
exemptions. All exemptions, including exemptions targeted for motors
that serve specific applications (e.g., submersible motors), must be
identified based on unique physical features of the motor. DOE seeks
comment, data, and information on these physical features.
4. Motor Boundary
An electric motor is a device that converts electrical power into
rotational mechanical power. Some motors may modify the electrical
input via rectification, inversion, or other processes prior to
generating a magnetic field within the motor. This electrical
conversion process can take place via a device integrally connected to
the motor, or via a device wired in-line between the power source and
the motor. In a potential rulemaking, DOE plans to specify which
components (e.g., rectifiers, inverters) would be subject to
consideration for the test procedure.
One example of a motor that includes electrical conversion is a DC
brushless permanent magnet motor (commonly referred to as an
electronically commutated motor [ECM]). Typically, the DC brushless
permanent magnet motor is connected to AC power. The AC power is
rectified into DC and inverted to a new waveform (e.g., a rectangular
waveform) that is then fed to the motor via electronic commutation.
[[Page 35474]]
While typically integral to the motor, this design could be implemented
with the rectification and inversion either integral to or separate
from the motor. DOE is considering defining such categories of motors
as including all components essential to operating the motor. For
motors that can be operated with and without non-integrally connected
controls or electrical conversion devices, DOE may consider testing in
each arrangement depending on which motor categories are included in
any potential new and/or revised test procedure.
Issue 6: DOE requests comment on how to account for components
included in a motor for motors that are sold in multiple pieces,
specifically regarding how to categorize controls or electrical
conversion components that may be non-integrally connected to the motor
and how to treat them during testing. DOE requests comment on ways to
identify control and conversion components that are essential to motor
operation.
Issue 7: DOE seeks comments and feedback about whether the presence
of a gear box should constitute a new motor model when added to a
motor. More specifically, if DOE were to establish a test procedure for
motors with gear boxes, should these motors have to be certified to DOE
separately from the same motors without a gear box? DOE is interested
in information regarding the potential test burden should separate
certification be required. Does the gear box change the tested motor
efficiency?
5. Motors Used in Dedicated Purpose Pool Pumps
Although motor regulations currently apply to certain small
electric motors (subpart X of 10 CFR part 431) and electric motors
(subpart B of 10 CFR part 431), regulations do not cover certain
varieties of motors that are used in pool pump applications. For
example, enclosed motors of less than one output horsepower are not
subject to the current test procedure or energy conservation standards,
nor are multispeed motors.
The issue of the efficiency of electric motors used in dedicated
purpose pool pumps (DPPP) was brought up by several stakeholders in
comments submitted in response DOE's direct final rule for DPPPs. 82 FR
5650 (January 18, 2017). Several manufacturers suggested that an energy
conservation standard for the motors used in DPPPs was needed in
addition to the standards for DPPPs themselves. This included a
manufacturer of the motors used in pool pump applications, Regal Beloit
Corporation, manufacturers of pumps, Hayward Industries, Inc. and
Pentair Water Pool and Spa, Inc., and a manufacturer of pool equipment,
Zodiac Pool Systems, Inc. (EERE-2015-BT-STD-0008, Regal, No. 122 at pg.
1; Hayward, No. 125 at p. 1; Pentair, No. 132 at pp. 1-2; Zodiac No.
134 at pp. 1-2). Other commenters also argued for a specific pool pump
motor standard, including the California Investor Owned Utilities (CA
IOUs), the industry trade association (Association of Pool and Spa
Professionals (APSP)), and two policy advocacy organizations (the
Appliance Standards Awareness Project (ASAP) and the Natural Resources
Defense Council (NRDC)). (EERE-2015-BT-STD-0008; CA IOUs, No. 130 at p.
2; APSP, No. 127 at p. 2; ASAP No. 133 at pp. 4-5; NRDC No. 121 at p.
4). In response to these comments, DOE published a notice announcing a
public meeting pertaining to potential energy conservation standards
for DPPP motors. 82 FR 30845 (July 3, 2017). In order to consider the
need for a specific pool pump motor regulations, DOE is requesting
information on the physical characteristics of motors used in pool pump
applications and any applicable test procedures that DOE should
consider.
Issue 8: DOE is interested in any physical feature(s) or observable
physical properties that would differentiate these motors from the
currently regulated small electric motors at 10 CFR 431.446 and
electric motors at 10 CFR 431.42525 that would help define the scope of
applicability of the test procedure should DOE decide to proceed in
consideration of one.
Issue 9: DOE also requests comment on any particular markings or
labels applied to these products or if there are published industry
standards that may be used to uniquely identify motors used in pool
pump applications, for example sections of NEMA MG 1-2014, ``Motors and
Generators,'' or of UL 1801, ``Standard for Swimming Pool Pumps,
Filters, and Chlorinators'' and would help define how they should be
tested.
B. Metric
The existing small electric motor test procedure uses motor average
efficiency at full-load as the metric. 10 CFR 431.444. A manufacturer
of small electric motors must determine the average efficiency, at
full-load, of a basic model through testing and applying a sampling
plan; or through the use of alternative methods for determining energy
efficiency or energy use (also known as alternative efficiency
determination methods, or ``AEDMs''). 10 CFR 431.445. For electric
motors, the existing test procedure uses the metric nominal full-load
efficiency. Provisions for determining a basic model's efficiency
through testing or with an AEDM are currently described in 10 CFR
431.17.
In a potential test procedure rulemaking, DOE could evaluate
whether to use the same metric and establish the performance of small
electric motors and newly regulated motors based on their tested
average full-load efficiency or whether to use a different metric, such
as a metric based on motor full-load losses. The sampling plan small
electric motor manufacturers must use to make representations of
average full-load efficiency is discussed in section II.C.3 in this
RFI.
Issue 10: DOE requests comment on the existing small electric motor
and electric motor metrics and on any recommended new metrics for the
motors under consideration in a test procedure rulemaking.
C. Test Procedures
Pursuant to EPCA's requirement that DOE review a given test
procedure at least once every 7 years, DOE will undertake a test
procedure review.
1. Method
DOE plans to (1) determine if the existing DOE test procedure
requires revisions, and (2) determine whether new test procedures for
any new motors identified in section II.A are needed (3) determine
whether any new motors identified in section 11.A should be categorized
as small electric motors or as electric motors are needed. If DOE
develops test procedures for any new motors, it would consider either
(1) adding testing instructions that modify the test methods currently
incorporated by reference at 10 CFR 431.443, or (2) establishing new
methods based on industry standards not currently incorporated by
reference in 10 CFR 431.443.
The existing test procedure for small electric motors is codified
at 10 CFR 431.443, 10 CFR 431.444, and 10 CFR 431.445. The referenced
industry standards for each motor category are shown in Table II-5 in
this RFI.
[[Page 35475]]
Table II-5--Referenced Industry Standards for Small Electric Motor
Categories
------------------------------------------------------------------------
Motor category Referenced industry standards
------------------------------------------------------------------------
Single-phase small electric motors..... IEEE 114-2010 or CSA C747-09.
Polyphase small electric motors less IEEE 112-2004 Test Method A or
than or equal to 1 horsepower (0.75 CSA C747-09.
kW).
Polyphase small electric motors greater IEEE 112-2004 Test Method B or
than 1 horsepower (0.75 kW). CSA C390-10.
------------------------------------------------------------------------
DOE reviewed existing industry standards from the IEEE, the CSA
Group, and the International Electrotechnical Commission (IEC) and
found existing test methods for all other motor topologies that DOE may
consider in future regulations (see Table II-6). However, the existing
test procedure may not apply to all existing mechanical designs or
electrical features within a given motor category (e.g., motors with
air-over enclosures, which otherwise meet the definition of small
electric motors or electric motors but fall outside the scope of IEEE
112-2004). DOE plans to consider amending the existing test procedure
to address potential new motor categories.
For air-over motors specifically, DOE plans to investigate testing
instructions that would allow testing based on the same industry
standards incorporated by reference at 10 CFR 431.443. In the past, as
part of the December 2013 electric motors test procedure final rule,
DOE investigated possible methods to test air-over electric motors and
determined that it did not have sufficient information to overcome the
practical challenges associated with testing air-over motors, such as
providing a standard flow of cooling air from an external source that
provides a constant velocity over the tested motor under defined
ambient temperature and barometric conditions. Therefore, at the time,
DOE did not establish any test methods for air-over motors. 78 FR
75926, 78 FR 75962, 75973-75975 (December 13, 2013).
DOE reviewed section 8.2.1 of IEEE 114-2010 and section 5 of CSA
C747-09, which include provisions for testing air-over single-phase
motors. Typically, the measurements according to these test standards
are performed when the tested motor's winding is thermally stable.\6\
Because the windings of air-over motors would overheat without an
external airflow and degrade the motor, both test methods include
specific provisions for air-over motors. Both test methods require test
measurements to be performed with sufficient ventilation to maintain a
temperature within 70 [deg]C-80 [deg]C, therefore removing the need to
accurately measure airflow by specifying a temperature range for the
motor's winding instead. Because the motor winding temperature is
inversely correlated to efficiency, a target winding temperature range
is specified to enable relative comparability of efficiency for air-
over motors. This temperature range (70-80 [deg]C) was originally
selected by CSA as it would reflect a winding temperature range that
mimics the field operating conditions for air-over motors.\7\
---------------------------------------------------------------------------
\6\ A rated load temperature test is a test during which the
motor is loaded at the rated full-load by means of a dynamometer
until it is thermally stable. Thermal stability is defined as the
condition where the motor temperature does not change by more than 1
[deg]C over 30 min or 15 min depending on the motor category (See
section 5.8.4.4 of IEEE 112-2004 and section 10.3.1.3 of IEEE 114-
2010)
\7\ Additionally, DOE reviewed 366 single-phase, air-over motor
models from five major motor manufacturers and observed the
following distribution across insulation classes: A (1.5 percent); B
(85 percent), F (13 percent); and H (0.5 percent). An insulation
class B corresponds to a winding temperature of 75 [deg]C according
to Table 2 of IEEE 114-2010.
---------------------------------------------------------------------------
NEMA published an air-over efficiency test standard which provides
three testing methods for measuring the efficiency of single phase and
polyphase air-over motors (NEMA Air-over Motor Efficiency Test
Method).\8\ Each test method requires a temperature test before
performing the efficiency test according to the applicable test
standard \9\ and replaces the original temperature test portion of the
applicable efficiency test. Although each of the three methods require
the temperature test to be conducted differently,\10\ the document
describes the three testing methods as equivalent.
---------------------------------------------------------------------------
\8\ NEMA MG1-2016, Supplement-2017. Motors and Generators
Section IV Part 34: Air-Over Motor Efficiency Test Method. March
2017. Available at https://www.nema.org/Standards/Pages/Motors-and-Generators.aspx.
\9\ IEEE 114-2010, IEEE 112-2014, CSA C390-10, or CSA C747-09,
depending on the motor phase and rated motor horsepower.
\10\ The NEMA Air-over Motor Efficiency Test Methods describes
three temperature tests conducted by (1) thermally stabilizing while
applying an air-flow based on customer specification; (2) bringing
the air-over motor at full-load within 10 [deg]C of a target
temperature using external cooling air (the target temperature for
single phase motors is 75 [deg]C, while the target temperature for
polyphase motors varies depending on the motor's insulation class);
or (3) bringing the air-over motor at a reduced load condition to
within 10 [deg]C of the target temperature without using external
cooling air.
---------------------------------------------------------------------------
DOE intends to review these test methods, and evaluate whether a
similar approach for testing single-phase and polyphase air-over motors
should be considered. DOE will also review the possibility of testing
polyphase air-over motors using different target temperatures depending
on the air-over motor's insulation class for polyphase motors.
DOE also is evaluating possible test procedures for motors with
non-standard construction. These motors, which otherwise meet the
definition of small electric motors, include motor variants such as
motors with special shaft dimensions, motors with brakes, or motors
with vertical mounting. For these motors, DOE plans on reviewing the
applicability of the testing instructions in section 4 of appendix B to
subpart B of part 431.
Finally, DOE is also evaluating potential test procedures for
synchronous motors. Specifically, DOE will evaluate the industry
standards applicable to synchronous motors in Table II-6. DOE will
consider each test procedure with respect to any proposed scope of
applicability (e.g., motor horsepower limits). For example, CSA C747-09
has a scope of 0.186 kW to 0.746 kW (0.25 hp to 1 hp), and IEEE Std
115-2009, (IEEE 115-2009), ``IEEE Guide for Test Procedures for
Synchronous Machines,'' applies to larger than fractional horsepower
motors (i.e., greater than or equal to 1 hp); therefore, if the
proposed scope of applicability of a test procedure spanned both
industry standards, DOE would consider whether each industry standard
was appropriate and would determine how to specify which industry
standard applied to various synchronous motors. DOE, however, is
uncertain as to the applicability of IEEE 115-2009 to AC permanent
magnet synchronous and reluctance synchronous motors, one of the
synchronous motor topologies in Table II-6 in this RFI.
[[Page 35476]]
Table II-6--Primary Motor Topologies and Existing Industry Standards
------------------------------------------------------------------------
Motor topology Existing industry standard
------------------------------------------------------------------------
Permanent-Split Capacitor.............. IEEE 114-2010; IEC 60034-2-1:
2014 [dagger]; CSA C747-09.
Capacitor-Start (CSCR, CSIR)........... IEEE 114-2010*; IEC 60034-2-1:
2014; CSA C747-09.
Split-phase............................ IEEE 114-2010; IEC 60034-2-1:
2014; CSA C747-09.
Shaded-Pole............................ IEEE 114-2010; IEC 60034-2-1:
2014; CSA C747-09.
Line-Start Permanent Magnet............ IEC 60034-2-1: 2014; CSA C747-
09.
AC Permanent Magnet Synchronous........ IEEE 115-2009; IEEE 1812-2014
[Dagger]; IEC 60034-2-1: 2014;
CSA C747-09. (The IEC and CSA
standards may not apply to
auxiliary starting motor
designs).
Polyphase induction, squirrel cage..... IEEE 112-2004 (Method A and
B)**; IEC 60034-2-1: 2014; CSA
C390-10; CSA C747-09.
Reluctance Synchronous................. CSA C747-09.
DC Brushed Permanent Magnet............ IEC 60034-2-1: 2014.
Switched Reluctance ***................ CSA C747-09.
DC Brushless Permanent Magnet ***...... CSA C747-09.
------------------------------------------------------------------------
* Includes testing provisions for air-over motors.
** Does not include all polyphase induction squirrel cage motors (e.g.,
air over motors, inverter-only motors).
*** These motors are often referred to as electronically commutated
motors (ECM).
[dagger] IEC 60034-2-1: 2014, ``Rotating electrical machines--Part 2-1:
Standard methods for determining losses and efficiency from tests
(excluding machines for traction vehicles).''.
[Dagger] IEEE 1812-2014 ``IEEE Trial-Use Guide for Testing Permanent
Magnet Machines.''
Issue 11: DOE seeks comment and information on whether and why the
existing test procedure for determining the average full-load
efficiency of small electric motors requires revision, and, if so, what
these revisions should be. DOE also requests comment on the impact to
test burden from any suggested revisions.
Issue 12: DOE requests comment and input on the availability of
methods for testing other topologies (motors other than CSCR, CSIR, and
polyphase) listed in Table II-6 in this RFI. If a new test procedure is
needed, DOE requests information on any additional instructions that
would be required to test these motor topologies.
Issue 13: DOE requests comment on any other design features of a
motor that could require modifications to an industry standard for
testing, what these modifications should be, and why. In particular,
DOE requests comment on whether testing instructions similar to the
ones found in section 4 of appendix B to subpart B of part 431 would
apply to any new motors that may be included in a possible test
procedure rulemaking.
Issue 14: DOE requests comment and input regarding the existing
testing provisions for air-over motors in section 8.2.1 of IEEE 114-
2010, section 5 of CSA C747-09, and in the NEMA Air-over Motor
Efficiency Test Method. Specifically, DOE requests feedback and
supporting data on the repeatability and level of accuracy of these
methods, and on whether these or other methods would lead to equivalent
results when applied to the same motor.
Issue 15: DOE understands that customers may provide air-velocity
specifications for air-over motors. DOE requests comment on whether
testing air-over motors according to customer air-velocity
specifications is currently used by the industry and why. Additionally
DOE requests comment on whether testing air-over motors according to
customer air-velocity specifications would allow comparability of
efficiency across motors.
Issue 16: DOE is aware that, because efficiency is inversely
correlated to temperature, conducting the temperature test using a
different target temperature for polyphase air-over motors depending on
the motor's insulation class may lead to measured efficiency values
that are not comparable across insulation classes. When measuring
polyphase air-over motor efficiency, DOE requests comment on whether
the temperature test should be conducted using a single target
temperature in order to allow relative comparability of polyphase air-
over motor efficiency across insulation classes. If not, DOE requests
comment on a justification for why testing polyphase air-over motors
using a temperature test at different target temperatures depending on
the motor's insulation class would still provide comparable efficiency
results across insulation classes.
Issue 17: DOE also requests comment regarding any additional
instructions for testing electronically commutated motors or other
categories of motors with controls (e.g., variable-speed drives), and
how controls affect average full load efficiency of the motor.
Issue 18: DOE requests comment on industry standards applicable to
synchronous motors and their applicability to the horsepower range
(i.e., >=0.125 hp and <=15 hp) that DOE is considering in a potential
test procedure rulemaking (e.g., IEEE 115-2009, IEEE 1812-2014, IEC
60034-2-1: 2014, and CSA C747-09). DOE also requests comment on the
applicability of IEEE 115-2009 to AC permanent magnet synchronous and
synchronous reluctance motors.
Issue 19: DOE requests comment on the feasibility of testing motors
that are components of other equipment. Specifically, DOE requests
comments on whether some motors that only enter commerce as components
of another product require modifications to an industry standard for
testing and on what these modifications should be and why.
Issue 20: DOE requests comment and supporting data on testing times
and associated costs of efficiency testing. Specifically, how many
hours it takes to test a motor per each industry standard listed in
Table II-6, if manufacturers test their own models or hire a third-
party for testing, if manufacturers need to purchase additional test
equipment according to the industry standards in Table II-6, and if
there are any other costs associated with testing.
Issue 21: DOE requests comment on the benefits and burdens of
adopting any already existing voluntary consensus-based or other
appropriate test procedure, without modification.
2. Motor Horsepower
As part of the potential test procedure rulemaking, DOE is
considering establishing a method to determine the load point for
testing a motor under full-load (i.e., rated motor horsepower). Rated
motor horsepower is generally not an intrinsic, observable motor
property, but rather it is declared by the
[[Page 35477]]
manufacturer, and motors are usually capable of operating both above
and below the rated motor horsepower. As a result, the existing test
procedure in subpart X of 10 CFR part 431 relies on the definition of
small electric motor (e.g., a general purpose motor according to NEMA
MG 1-1987), but the DOE regulations do not explicitly address how to
determine the full-load or rated motor horsepower of a motor.
To better specify the test procedures, DOE is considering
approaches to determine rated motor horsepower based on motor
properties like breakdown torque and temperature rise. NEMA Standards
Publication MG 1-2014, (MG 1-2014), ``Motors and Generators,'' section
10.34 specifies that the rated motor horsepower of a small or medium
single-phase induction motor is based on breakdown torque. NEMA MG 1-
2014 then provides ranges of breakdown torque associated with rated
motor horsepower and pole configurations. However, DOE identified
multiple motor models that had a manufacturer-listed breakdown torque
outside of the associated NEMA range (i.e., for a given topology, pole
configuration, and rated motor horsepower), indicating not all motors
follow the conventions listed in NEMA MG 1-2014.
Another option would be to determine the rated motor horsepower
based on a load which results in a temperature rise associated with the
insulation class of the motor (i.e., service factor load). Insulation
class is a letter designation (i.e., A, B, F, and H), which has an
associated temperature rise indicating the temperature at which the
motor can operate, and is commonly displayed in manufacturer literature
and on motor nameplates. DOE is aware of insulation class temperature
rises in NEMA MG 1-2014 section 12.42 and 12.43, and also in IEEE 112-
2004 Table 1 which may be applicable to this method. The load which
results in the insulation class temperature rise would be a repeatable
loading point, but DOE will consider if it is appropriate for
determining efficiency, or if it could be indirectly used as a
reference point for calculating the rated motor horsepower.
Issue 22: DOE requests comment on how industry currently determines
the full-load, or rated, horsepower of a motor, and how DOE should
specify this quantity.
Issue 23: DOE requests comment and input on a method to determine
full-load, or rated, horsepower of a motor based on the breakdown
torque of a motor as specified in NEMA MG 1-2014.
Issue 24: DOE requests comment and input on a method to determine
full-load, or rated, horsepower of a motor based on the load which
results in a temperature rise associated with the insulation class of
the motor (i.e., service factor load). DOE also requests comment on
whether all motors have an associated NEMA insulation class (i.e., A,
B, F, and H) that is known by the manufacturer, and if it is not known
if there are methods a manufacturer can use to determine the insulation
class. DOE also requests comment on the temperature rise that should be
associated with each insulation class for this method (e.g., values
from NEMA MG 1-2014 or IEEE 112-2004).
3. Represented Value
The procedure for determining the represented value of average
full-load efficiency of a small electric motor can be found at 10 CFR
431.445. Specifically, DOE provides sampling provisions that must be
used when determining the average full-load efficiency of a basic model
through testing. On June 24, 2016, DOE published a separate notice of
proposed rulemaking on certification, compliance, labeling, and
enforcement for electric motors and small electric motors, which
included a proposal to revise the sampling provisions for small
electric motors to conform with the sampling provisions for other types
of covered product and equipment at 10 CFR part 429, subpart B. 81 FR
41378.
DOE plans to investigate whether the proposed sampling provision
for determining the represented value \11\ of a small electric motor
could apply to the new motors DOE may consider regulating or whether
the current sampling provisions need to be revised. DOE's preference is
that all motors discussed in section II.A be subject to the same
sampling provisions and represented value calculation.
---------------------------------------------------------------------------
\11\ A represented value is a figure characterizing motor energy
efficiency for the purposes of marketing or certifying performance
to DOE.
---------------------------------------------------------------------------
Issue 25: DOE requests comment on applying (1) the sampling plan in
DOE's separate notice of proposed rulemaking (81 FR 41378, [June 24,
2016]) and (2) the represented value calculation for small electric
motors to new motors DOE may consider regulating.
D. Other Test Procedure Topics
In addition to the issues identified earlier in this document, DOE
welcomes comment on any other aspect of the existing test procedures
for small electric motors not already addressed by the specific areas
identified in this document. DOE particularly seeks information that
would improve the repeatability, reproducibility, and consumer
representativeness of the test procedures. DOE also requests
information that would help DOE create a procedure that would limit
manufacturer test burden through streamlining or simplifying testing
requirements. Comments regarding repeatability and reproducibility are
also welcome.
DOE also requests feedback on any potential amendments to the
existing test procedure that could be considered to address impacts on
manufacturers, including small businesses. Regarding the Federal test
method, DOE seeks comment on the degree to which the DOE test procedure
should consider and be harmonized with the most recent relevant
industry standards for small electric motors and whether there are any
changes to the Federal test method that would provide additional
benefits to the public.
Additionally, DOE requests comment on whether the existing test
procedures limit a manufacturer's ability to provide additional
features to consumers of small electric motors. DOE particularly seeks
information on how the test procedures could be amended to reduce the
cost of these new or additional features and make it more likely that
such features are included on small electric motors.
III. Public Participation
DOE invites all interested parties to submit in writing by August
30, 2017, comments and information on matters addressed in this RFI and
on other matters relevant to DOE's consideration of new and/or amended
test procedure for small electric motors and electric motors. These
comments and information will aid in the development of a test
procedure NOPR for small electric motors and electric motors if DOE
determines that amended test procedures may be appropriate for these
products.
Submitting comments via https://www.regulations.gov. The https://www.regulations.gov Web page will require you to provide your name and
contact information. Your contact information will be viewable to DOE
Building Technologies staff only. Your contact information will not be
publicly viewable except for your first and last names, organization
name (if any), and submitter representative name (if any). If your
comment is not processed properly because of technical difficulties,
DOE will use this information to contact you. If DOE cannot read your
comment due to
[[Page 35478]]
technical difficulties and cannot contact you for clarification, DOE
may not be able to consider your comment.
However, your contact information will be publicly viewable if you
include it in the comment or in any documents attached to your comment.
Any information that you do not want to be publicly viewable should not
be included in your comment, nor in any document attached to your
comment. Persons viewing comments will see only first and last names,
organization names, correspondence containing comments, and any
documents submitted with the comments.
Do not submit to https://www.regulations.gov information for which
disclosure is restricted by statute, such as trade secrets and
commercial or financial information (hereinafter referred to as
Confidential Business Information (CBI)). Comments submitted through
https://www.regulations.gov cannot be claimed as CBI. Comments received
through the Web site will waive any CBI claims for the information
submitted. For information on submitting CBI, see the Confidential
Business Information section.
DOE processes submissions made through https://www.regulations.gov
before posting. Normally, comments will be posted within a few days of
being submitted. However, if large volumes of comments are being
processed simultaneously, your comment may not be viewable for up to
several weeks. Please keep the comment tracking number that https://www.regulations.gov provides after you have successfully uploaded your
comment.
Submitting comments via email, hand delivery, or mail. Comments and
documents submitted via email, hand delivery, or mail also will be
posted to https://www.regulations.gov. If you do not want your personal
contact information to be publicly viewable, do not include it in your
comment or any accompanying documents. Instead, provide your contact
information on a cover letter. Include your first and last names, email
address, telephone number, and optional mailing address. The cover
letter will not be publicly viewable as long as it does not include any
comments.
Include contact information each time you submit comments, data,
documents, and other information to DOE. If you submit via mail or hand
delivery, please provide all items on a CD, if feasible. It is not
necessary to submit printed copies. No facsimiles (faxes) will be
accepted.
Comments, data, and other information submitted to DOE
electronically should be provided in PDF (preferred), Microsoft Word or
Excel, WordPerfect, or text (ASCII) file format. Provide documents that
are not secured, written in English and free of any defects or viruses.
Documents should not contain special characters or any form of
encryption and, if possible, they should carry the electronic signature
of the author.
Campaign form letters. Please submit campaign form letters by the
originating organization in batches of between 50 to 500 form letters
per PDF or as one form letter with a list of supporters' names compiled
into one or more PDFs. This reduces comment processing and posting
time.
Confidential Business Information. According to 10 CFR 1004.11, any
person submitting information that he or she believes to be
confidential and exempt by law from public disclosure should submit via
email, postal mail, or hand delivery two well-marked copies: one copy
of the document marked confidential including all the information
believed to be confidential, and one copy of the document marked ``non-
confidential'' with the information believed to be confidential
deleted. Submit these documents via email or on a CD, if feasible. DOE
will make its own determination about the confidential status of the
information and treat it according to its determination.
Factors of interest to DOE when evaluating requests to treat
submitted information as confidential include (1) a description of the
items, (2) whether and why such items are customarily treated as
confidential within the industry, (3) whether the information is
generally known by or available from other sources, (4) whether the
information has previously been made available to others without
obligation concerning its confidentiality, (5) an explanation of the
competitive injury to the submitting person which would result from
public disclosure, (6) when such information might lose its
confidential character due to the passage of time, and (7) why
disclosure of the information would be contrary to the public interest.
It is DOE's policy that all comments may be included in the public
docket, without change and as received, including any personal
information provided in the comments (except information deemed to be
exempt from public disclosure).
DOE considers public participation to be a very important part of
the process for developing test procedures. DOE actively encourages the
participation and interaction of the public during the comment period
in each stage of the rulemaking process. Interactions with and between
members of the public provide a balanced discussion of the issues and
assist DOE in the rulemaking process. Anyone who wishes to be added to
the DOE mailing list to receive future notices and information about
this rulemaking should contact Appliance and Equipment Standards
Program staff at (202) 586-6636 or via email at
ApplianceStandardsQuestions@ee.doe.gov.
Issued in Washington, DC, on July 14, 2017.
Kathleen B. Hogan,
Deputy Assistant Secretary for Energy Efficiency, Energy Efficiency and
Renewable Energy.
[FR Doc. 2017-15848 Filed 7-28-17; 8:45 am]
BILLING CODE 6450-01-P