Notice of Petition for Waiver of GD Midea Air Conditioning Equipment Co. LTD. from the Department of Energy Room Air Conditioner Test Procedure and Notice of Grant of Interim Waiver, 68159-68168 [2019-26904]
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Federal Register / Vol. 84, No. 240 / Friday, December 13, 2019 / Notices
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information as directed by the Secretary
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(c) Under 34 CFR 75.250(b), the
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and a copy of the application package in
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Dated: December 10, 2019.
Frank T. Brogan,
Assistant Secretary for Elementary and
Secondary Education.
[FR Doc. 2019–26944 Filed 12–12–19; 8:45 am]
BILLING CODE 4000–01–P
DEPARTMENT OF ENERGY
[Case Number 2019–004; EERE–2019–BT–
WAV–0009]
Notice of Petition for Waiver of GD
Midea Air Conditioning Equipment Co.
LTD. from the Department of Energy
Room Air Conditioner Test Procedure
and Notice of Grant of Interim Waiver
Office of Energy Efficiency and
Renewable Energy, Department of
Energy.
ACTION: Notice of petition for waiver and
grant of an interim waiver, and request
for comments.
AGENCY:
This document announces
receipt of and publishes a petition for
waiver from GD Midea Air Conditioning
Equipment Co. LTD. (‘‘Midea’’), which
seeks an exemption from the U.S.
Department of Energy (‘‘DOE’’) test
procedure when determining the
efficiency of listed room air conditioner
basic models. Midea seeks to use an
alternate test procedure to address
issues involved in testing the basic
models listed in its petition. According
to Midea, the current DOE test
procedure for room air conditioners,
which provides for testing at full-load
performance only, does not take into
account the benefits of room air
conditioners that use variable-speed
compressors (‘‘variable-speed room air
SUMMARY:
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68159
conditioners’’), with their part-load
performance characteristics, and
misrepresents their actual energy
consumption. Midea requests that DOE
permit Midea to test the basic models
listed in its petition using the alternate
test procedure in the interim waiver
granted to LG Electronics USA, Inc.
(‘‘LG’’) on June 29, 2018, which requires
testing units at four rating conditions
instead of a single rating condition and
calculating each test unit’s weightedaverage combined energy efficiency
ratio (‘‘CEER’’), which is compared to
the expected performance of a
theoretical comparable single-speed
room air conditioner across the same
four rating conditions. The measured
performance of the variable-speed room
air conditioner when tested under the
high-temperature rating condition of the
DOE test procedure for room air
conditioners would be scaled by the
same relative performance improvement
to determine the test unit’s final rated
CEER value. DOE grants Midea an
interim waiver from DOE’s room air
conditioner test procedure for the basic
models listed in the Interim Waiver
Order, subject to use of the alternate test
procedure as set forth in the Interim
Waiver Order. DOE solicits comments,
data, and information concerning
Midea’s petition and its suggested
alternate test procedure to inform its
final decision on Midea’s waiver
request.
DATES: Written comments and
information will be accepted on or
before January 13, 2020.
ADDRESSES: Interested persons are
encouraged to submit comments using
the Federal eRulemaking Portal at
https://www.regulations.gov.
Alternatively, interested persons may
submit comments, identified by case
number ‘‘2019–004’’, and Docket
number ‘‘EERE–2019–BT–WAV–0009,’’
by any of the following methods:
• Federal eRulemaking Portal: https://
www.regulations.gov. Follow the
instructions for submitting comments.
• E-mail:
MideaAmerica2019WAV0009@
ee.doe.gov Include the case number
[Case No. 2019–004] in the subject line
of the message.
• Postal Mail: Appliance and
Equipment Standards Program, U.S.
Department of Energy, Office of Energy
Efficiency and Renewable Energy,
Building Technologies Office, Mailstop
EE–5B, Petition for Waiver Case No.
2019–004, 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.
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Federal Register / Vol. 84, No. 240 / Friday, December 13, 2019 / Notices
• 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.
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
V of this document.
Docket: The docket, 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/docket?
D=EERE-2019-BT-WAV-0009. The
docket web page contains simple
instruction on how to access all
documents, including public comments,
in the docket. See section V for
information on how to submit
comments through https://
www.regulations.gov.
FOR FURTHER INFORMATION CONTACT:
Ms. Lucy deButts, U.S. Department of
Energy, Office of Energy Efficiency and
Renewable Energy, Building
Technologies Office, Mailstop EE–5B,
1000 Independence Avenue SW,
Washington, DC 20585–0121. E-mail:
AS_Waiver_Request@ee.doe.gov.
Ms. Sarah Butler, U.S. Department of
Energy, Office of the General Counsel,
Mail Stop GC–33, Forrestal Building,
1000 Independence Avenue SW,
Washington, DC 20585–0103.
Telephone: (202) 586–1777. E-mail:
Sarah.Butler@hq.doe.gov.
SUPPLEMENTARY INFORMATION:
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I. Background and Authority
The Energy Policy and Conservation
Act (‘‘EPCA’’ or ‘‘the Act’’),1 Public Law
94–163 (42 U.S.C. 6291–6317, as
codified), authorizes DOE to regulate the
energy efficiency of certain consumer
products and industrial equipment.
Title III, Part B 2 of EPCA established the
Energy Conservation Program for
Consumer Products Other Than
1 All references to EPCA in this document refer
to the statute as amended through America’s Water
Infrastructure Act of 2018, Public Law 115–270
(October 23, 2018).
2 For editorial reasons, upon codification in the
U.S. Code, Part B was redesignated as Part A.
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Automobiles, a program that includes
room air conditioners, which are the
focus of this document. (42 U.S.C.
6292(a)(2))
DOE regulations set forth at 10 CFR
430.27 contain provisions that allow
any interested person to seek a waiver
from test procedure requirements for a
particular basic model when the
petitioner’s basic model for which the
petition for waiver was submitted
contains one or more design
characteristics that either (1) prevent
testing according to the prescribed test
procedure, or (2) cause the prescribed
test procedure to evaluate the basic
model in a manner so unrepresentative
of its true energy consumption
characteristics as to provide materially
inaccurate comparative data. 10 CFR
430.27(f)(2). A petitioner must include
in its petition any alternate test
procedures known to the petitioner to
evaluate the basic model in a manner
representative of its energy
consumption characteristics. 10 CFR
430.27(b)(1)(iii).
DOE may grant the waiver subject to
conditions, including adherence to
alternate test procedures. 10 CFR
430.27(f)(2). As soon as practicable after
the granting of any waiver, DOE will
publish in the Federal Register a notice
of proposed rulemaking to amend its
regulations so as to eliminate any need
for the continuation of such waiver. 10
CFR 430.27(l). As soon thereafter as
practicable, DOE will publish in the
Federal Register a final rule. Id.
The waiver process also provides that
DOE may grant an interim waiver if it
appears likely that DOE will grant the
underlying petition for waiver and/or if
DOE determines that it would be
desirable for public policy reasons to
grant immediate relief pending a
determination on the underlying
petition for waiver. 10 CFR 430.27(e)(2).
Within one year of issuance of an
interim waiver, DOE will either: (i)
Publish in the Federal Register a
determination on the petition for
waiver; or (ii) publish in the Federal
Register a new or amended test
procedure that addresses the issues
presented in the waiver. 10 CFR
430.27(h)(1). When DOE amends the test
procedure to address the issues
presented in a waiver, the waiver will
automatically terminate on the date on
which use of that test procedure is
required to demonstrate compliance. 10
CFR 430.27(h)(2).
II. Midea’s Petition for Waiver and
Petition for Interim Waiver
On March 25, 2019, Midea filed a
petition for waiver and a petition for
interim waiver from the test procedure
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applicable to room air conditioners set
forth in appendix F.3 According to
Midea, the current DOE test procedure
for room air conditioners, which
provides for testing at full-load
performance only (i.e., at a single indoor
and high-temperature outdoor operating
condition), does not take into account
the benefits of variable-speed room air
conditioners, with their part-load
performance characteristics, and
misrepresents their actual energy
consumption.4 Appendix F requires
testing room air conditioners only with
full-load performance, in part, as a
result of DOE having previously
concluded that widespread use of partload technology in room air
conditioners was not likely to be
stimulated by the development of a partload metric. 76 FR 972, 1016 (January 6,
2011).
Midea states that, to operate in the
most efficient possible manner, variablespeed room air conditioners adjust the
compressor rotation speed based upon
demand to maintain the desired
temperature in the home without
turning the compressor and blower
motor(s) on and off. Midea claims that,
compared to room air conditioners
without variable-speed compressors,
this ability to adjust to conditions
results in both significant energy
savings and faster cooling. Midea asserts
that because the DOE test procedure
does not account for part-load
characteristics, the results of the test
procedure are not representative of the
benefits of variable-speed room air
conditioners.
Midea asserts that the suggested
approach is consistent with an interim
waiver issued to LG Electronics USA,
Inc. (‘‘LG’’) on June 29, 2018. 83 FR
30717.
Midea also requests an interim waiver
from the existing DOE test procedure.
DOE will grant an interim waiver if it
appears likely that the petition for
waiver will be granted, and/or if DOE
determines that it would be desirable for
public policy reasons to grant
immediate relief pending a
determination of the petition for waiver.
See 10 CFR 430.27(e)(2).
DOE understands that, absent an
interim waiver, the test procedure does
not accurately measure the energy
3 Midea’s petition for a waiver and petition for an
interim waiver is provided in the docket located at:
https://www.regulations.gov/document?D=EERE2019-BT-WAV-0009-0001.
4 The specific basic models for which the petition
applies are room air conditioner basic models
Midea MAW08V1DWT, Midea MAW08V1QWT,
Midea MAW10V1DWT, Midea MAW10V1QWT,
Midea MAW12V1DWT, and Midea
MAW12V1QWT. These basic model names were
provided by Midea in its March 25, 2019 petition.
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consumption of variable-speed room air
conditioners, and without waiver relief,
the part-load characteristics of the basic
models identified in Midea’s petition
would not be captured.
III. Requested Alternate Test Procedure
EPCA requires that manufacturers use
DOE test procedures when making
representations about the energy
efficiency or energy consumption and
corresponding costs of products covered
by the statute. (42 U.S.C. 6293(c))
Consistent representations are important
for manufacturers to use in making
representations about the energy
efficiency of their products and to
demonstrate compliance with
applicable DOE energy conservation
standards. Pursuant to its regulations
applicable to waivers and interim
waivers from applicable test procedures
at 10 CFR 430.27, and after
consideration of public comments on
the petition, DOE in a subsequent
Decision and Order will consider setting
an alternate test procedure for the basic
models listed by Midea.
Midea requests testing the basic
models listed in its petition according to
the test procedure for variable-speed
room air conditioners prescribed by
DOE in an interim waiver granted to LG.
That waiver required testing variablespeed room air conditioners according
to the test procedure in appendix F,
except instead of a single rating
condition, testing of a variable-speed
room air conditioner occurred at four
rating conditions. 83 FR 30717 (‘‘LG
Interim Waiver’’). DOE later issued a
Decision and Order to LG that
supersedes the interim waiver. The four
test conditions Midea suggested,
identical to those in the LG Decision
and Order, are presented in Table III.1.
TABLE III.1—INDOOR AND OUTDOOR INLET AIR TEST CONDITIONS—VARIABLE-SPEED ROOM AIR CONDITIONERS
Evaporator inlet
(indoor) air, °F
Test condition
Dry bulb
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Test
Test
Test
Test
Condition
Condition
Condition
Condition
1
2
3
4
..................................................................
..................................................................
..................................................................
..................................................................
Under the suggested test procedure,
the test unit’s weighted-average
combined energy efficiency ratio (CEER)
metric is calculated from the individual
CEER values obtained at the four rating
conditions. DOE based the room air
conditioner weighting factors for each
rating temperature on the fractional
temperature bin hours provided in
Table 19 of DOE’s test procedure for
central air conditioners (10 CFR part
430, subpart B, appendix M (‘‘appendix
M’’)). This weighted-average value is
adjusted to normalize it against the
expected weighted-average CEER under
the same four rating conditions of a
theoretical comparable single-speed
room air conditioner. This theoretical
air conditioner is one that at the 95
degree Fahrenheit (°F) test condition
performs the same as the variable-speed
test unit, but with differing performance
at the other rating conditions. The
differing performance is due to
optimization of the refrigeration system
efficiency through compressor speed
adjustments to eliminate cycling losses
and better match the cooling load. To
determine the test unit’s final rated
CEER value, Midea would multiply a
performance adjustment factor and the
measured performance of the variablespeed room air conditioner when tested
at the 95 °F rating condition according
to appendix F. The factor reflects the
average performance improvement due
to the variable-speed compressor across
multiple rating conditions. Midea states
that this approach takes into account
performance and efficiency
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Condenser inlet
(outdoor) air, °F
Wet bulb
80
80
80
80
Dry bulb
67
67
67
67
improvements associated with variablespeed room air conditioners as
compared to room air conditions with
single-speed compressors and isolates
the effects just attributable to the
variable speed operation.
IV. Grant of an Interim Waiver
DOE has reviewed Midea’s petition
for an interim waiver and the alternate
test procedure requested by Midea.
These materials that DOE reviewed
support Midea’s assertion of the partload characteristics of the listed basic
models and that the DOE test procedure
may evaluate the basic models in a
manner unrepresentative of their true
energy consumption characteristics. In
particular, the DOE test procedure does
not capture the relative efficiency
improvements that can be achieved by
variable-speed room air conditioners
over a range of operating conditions
compared to single-speed room air
conditioners. In the absence of an
alternate test procedure, the CEER
values of variable-speed room air
conditioners would suggest they
consume at least as much energy
annually as a comparable single-speed
room air conditioner, despite the
anticipated benefits of improved
performance under part-load conditions.
Furthermore, DOE has reviewed the
alternate procedure suggested by Midea,
along with the additional performance
modeling and analysis performed by
DOE conducted in evaluation of the LG
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Compressor
speed
Wet bulb
95
92
87
82
75
72.5
69
65
Full.
Full.
Intermediate.
Low.
Interim Waiver.5 Based on this review it
appears that the suggested alternate test
procedure, with the changes described
below, will allow for a more accurate
measurement of efficiency of the listed
basic models of variable-speed room air
conditioners, while alleviating the
testing problems associated with
Midea’s testing those basic models.
DOE incorporated the following
changes into the suggested alternate test
procedure, based on further review
undertaken for the alternate test
procedure in the waiver DOE granted to
LG in a Decision and Order published
in the Federal Register on May 8, 2019.
82 FR 20111 (‘‘LG Decision and Order’’).
First, DOE is providing compressor
speed definitions to harmonize the
alternate test procedure with industry
standards. Second, because fixed
compressor speeds are critical to the
repeatability of the alternate test
procedure, Midea provided DOE all
necessary instructions to maintain the
compressor speeds required for each test
condition (Docket No. EERE–2019–BT–
WAV–0009–0003). This includes the
compressor frequency set points at each
test condition, instructions necessary to
maintain the compressor speeds
required for each test condition, and the
control settings used for the variable
5 The modeling and analysis conducted in
evaluation of the LG Interim Waiver is available at:
https://www.regulations.gov/docket?D=EERE-2018BT-WAV-0006.
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components.6 Third, DOE modified the
annual energy consumption and
corresponding cost calculations by
specifying the correct method to
incorporate electrical power input data
in 10 CFR 430.23(f), to ensure
EnergyGuide labels present consistent
and appropriate information to
consumers. Fourth, DOE adjusted the
CEER calculations in appendix F for
clarity. Fifth, as discussed in the LG
Decision and Order, DOE is not
providing the option provided in the LG
Interim Waiver to test the specified
variable-speed room air conditioners
using the air-enthalpy method. There
are two reasons for this. One is that,
compared to the calorimeter method,
the air-enthalpy method’s measured
results differ. The other is that there is
heat transfer within and through the
unit chassis that the calorimeter method
captures but the air-enthalpy method
does not. 84 FR 20111, 20117. Sixth, to
ensure that the low and intermediate
compressor speeds result in
representative cooling capacity under
reduced loads, the low compressor
speed definition requires that the test
unit’s measured cooling capacity at the
82 °F rating condition be no less than 47
percent and no greater than 57 percent
of the measured cooling capacity when
operating at the full compressor speed at
the 95 °F rating condition.7
6 Pursuant to 10 CFR 1004.11, if the manufacturer
submits information that it believes to be
confidential and exempt by law from public
disclosure, the manufacturer should submit via
email, postal mail, or hand delivery two wellmarked 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.
DOE will make its own determination about the
confidential status of the information and treat it
according to its determination.
7 Two aspects of the cooling load range are
important: (1) The cooling load at 82 °F should be
no more than 57 percent of the full-load cooling
capacity according to the Air-Conditioning,
Heating, and Refrigeration Institute (AHRI)
Standard 210/240–2017, ‘‘Performance Rating of
Unitary Air-conditioning & Air-source Heat Pump
Equipment,’’ and (2) a 10-percent tolerance on the
measured cooling capacity is necessary because
some variable-speed room ACs adjust speed in
discrete steps, so it may not be possible to achieve
the 57-percent condition exactly. To provide for the
10-percent tolerance, DOE requires the 57-percent
cooling load condition as the upper end of the range
and allows down to a 47-percent cooling load. This
ensures the cooling load never exceeds 57 percent.
The compressor speed nomenclature and definition
clarifications are derived from AHRI 210/240–2017
and adapted to be applicable to room ACs. Equation
11.60 in AHRI 210/240–2017 relates the building
load to an AC’s full-load cooling capacity and
outdoor temperature, and assumes full-load
operation at 98 °F outdoor temperature. To provide
consistency with the full-load test condition for
room ACs, DOE adjusted (i.e., normalized) this
equation to reflect full-load operation at 95 °F
outdoor temperature. Using the adjusted equation
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DOE has found that the suggested
alternate test procedure, with the
discussed modifications, will produce
more accurate final CEER values for the
variable-speed room air conditioners
under the DOE test procedure’s existing
rating condition. The more accurate
results reflect the average performance
improvement associated with variablespeed compressors relative to
comparable single-speed room air
conditioners at differing operating
conditions (i.e., optimization of the
refrigeration system efficiency through
compressor speed adjustments to better
match the cooling load and eliminate
cycling losses). Consequently, it appears
likely that DOE will grant Midea’s
petition for waiver. Furthermore, DOE
has determined that it is desirable for
public policy reasons to grant Midea
immediate relief pending a
determination of the petition for waiver.
For the reasons stated, DOE has
granted an interim waiver to GD Midea
Air Conditioning Equipment Co. LTD
(‘‘Midea’’) for the room air conditioner
basic models listed in paragraph (1)(A)
below. Therefore, DOE has issued an
order stating:
(1) Midea must test and rate the
following room air conditioner basic
models with the alternate test procedure
set forth in paragraph (2):
Brand
Midea
Midea
Midea
Midea
Midea
Midea
Basic model
........................
........................
........................
........................
........................
........................
MAW08V1DWT
MAW08V1QWT
MAW10V1DWT
MAW10V1QWT
MAW12V1DWT
MAW12V1QWT
(2) The alternate test procedure for the
Midea basic models listed in paragraph
suggests that the representative cooling load at the
82 °F rating condition would be 57 percent of the
full-load cooling capacity for room air conditioners.
DOE recognizes that variable-speed room ACs may
use compressors that vary their speed in discrete
steps and may not be able to operate at a speed that
provides exactly 57 percent cooling capacity.
Therefore, the defined cooling capacity associated
with the low compressor speed is presented as a 10percent range rather than a single value. 57 percent
cooling load is the upper bound of the 10-percent
range defining the cooling capacity associated with
the lower compressor speed (i.e., the range is
defined as 47 to 57 percent). This ensures that the
variable-speed room AC is capable of matching the
representative cooling load (57 percent of the
maximum) at the 82 °F rating condition, while
providing the performance benefits associated with
variable-speed operation. In contrast, if the 10percent range were to be defined as, for example,
52 to 62 percent (with 57 percent as the midpoint),
a variable-speed room AC could be tested at 60
percent, for example, without demonstrating the
capability to maintain variable-speed performance
down to 57 percent.
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(1) is the test procedure for room air
conditioners prescribed by DOE at
appendix F to subpart B of 10 CFR part
430 (Appendix F) and 10 CFR 430.23(f),
except (i) determine the combined
energy efficiency ratio (‘‘CEER’’) as
detailed below, and (ii) calculate the
average annual energy consumption
referenced in 10 CFR 430.23(f)(3) as
detailed below. In addition, for each
basic model listed in paragraph (1),
maintain compressor speeds at each test
condition and set control settings for the
variable components, according to the
instructions GD Midea Air Conditioning
Equipment Co. LTD submitted to DOE
(https://www.regulations.gov/
document?D=EERE-2019-BT-WAV0009-0003). All other requirements of
Appendix F and DOE’s regulations
remain applicable.
In 10 CFR 430.23, in paragraph (f)
revise paragraph (3)(i) to read as
follows:
The electrical power input in
kilowatts as calculated in section 5.2.1
of appendix F to this subpart, and
In 10 CFR 430.23, in paragraph (f)
revise paragraph (5) to read as follows:
(5) Calculate the combined energy
efficiency ratio for room air
conditioners, expressed in Btu’s per
watt-hour, as follows:
(i) Calculate the quotient of:
(A) The cooling capacity as
determined at the 95 °F outdoor test
condition, Capacity1, in Btus per hour,
as determined in accordance with
section 5.1 of appendix F to this subpart
multiplied by the representative
average-use cycle of 750 hours of
compressor operation per year, divided
by
(B) The combined annual energy
consumption, in watt hours, which is
the sum of the annual energy
consumption for cooling mode,
calculated in section 5.4.2 of appendix
F to this subpart for test condition 1 in
Table 1 of appendix F to this subpart,
and the standby mode and off mode
energy consumption, as determined in
accordance with section 5.3 of appendix
F to this subpart. Multiply the sum of
the annual energy consumption in
cooling mode and standby mode and off
mode energy consumption by a
conversion factor of 1,000 to convert
kilowatt-hours to watt-hours.
(ii) Multiply the quotient calculated
in paragraph (f)(5)(i) of this section by
(1 + Fp), where Fp is the variable-speed
room air conditioner unit’s performance
adjustment factor as determined in
section 5.4.8 of appendix F to this
subpart.
(iii) Round the resulting value from
paragraph (f)(5)(ii) of this section to the
nearest 0.1 Btu per watt-hour.
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In appendix F:
Add in Section 1, Definitions:
1.8 ‘‘Single-speed’’ means a type of
room air conditioner that cannot
automatically adjust the compressor
speed based on detected conditions.
1.9 ‘‘Variable-speed’’ means a type
of room air conditioner that can
automatically adjust the compressor
speed based on detected conditions.
1.10 ‘‘Full compressor speed (full)’’
means the compressor speed specified
by Midea (Docket No. EERE–2019–BT–
WAV–0009–0003) at which the unit
operates at full load testing conditions.
1.11 ‘‘Intermediate compressor
speed (intermediate)’’ means the
compressor speed higher than the low
compressor speed by one third of the
difference between low compressor
speed and full compressor speed with a
tolerance of plus 5 percent (designs with
non-discrete compressor speed stages)
or the next highest inverter frequency
step (designs with discrete compressor
speed steps).
1.12 ‘‘Low compressor speed (low)’’
means the compressor speed specified
by Midea (Docket No. EERE–2019–BT–
WAV–0009–0003) at which the unit
operates at low load test conditions,
such that Capacity4, the measured
cooling capacity at test condition 4 in
Table 1 of this appendix, is no less than
47 percent and no greater than 57
percent of Capacity1, the measured
cooling capacity with the full
compressor speed at test condition 1 in
Table 1 of this appendix.
1.13 ‘‘Theoretical comparable singlespeed room air conditioner’’ means a
theoretical single-speed room air
conditioner with the same cooling
capacity and electrical power input as
the variable-speed room air conditioner
unit under test, with no cycling losses
considered, at test condition 1 in Table
1 of this appendix.
Add to the end of Section 2.1 Cooling:
For the purposes of this waiver, test
each unit following the cooling mode
test a total of four times: One test at each
of the test conditions listed in Table 1
of this appendix, consistent with section
3.1 of this appendix.
Revise Section 3.1, Cooling mode, to
read as follows:
Cooling mode. Establish the test
conditions described in sections 4 and
5 of ANSI/AHAM RAC–1 (incorporated
by reference; see 10 CFR 430.3) and in
accordance with ANSI/ASHRAE 16
(incorporated by reference; see 10 CFR
430.3), with the following exceptions:
Conduct the set of four cooling mode
tests with the test conditions in Table 1
of this appendix. Set the compressor
speed required for each test condition in
accordance with instructions Midea
provided to DOE (Docket No. EERE–
2019–BT–WAV–0009–0003).
TABLE 1—INDOOR AND OUTDOOR INLET AIR TEST CONDITIONS—VARIABLE-SPEED ROOM AIR CONDITIONERS
Evaporator inlet
(indoor) air, °F
Test condition
Dry Bulb
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Test
Test
Test
Test
Condition
Condition
Condition
Condition
1
2
3
4
...............................
...............................
...............................
...............................
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Wet Bulb
80
80
80
80
Replace Section 5.1 to read as follows:
Calculate the condition-specific
cooling capacity (expressed in Btu/h),
Capacitytc, for each of the four cooling
mode rating test conditions (tc), as
required in section 6.1 of ANSI/AHAM
RAC–1 (incorporated by reference; see
10 CFR 430.3) and in accordance with
ANSI/ASHRAE 16 (incorporated by
reference; see 10 CFR 430.3).
Notwithstanding the requirements of 10
CFR 430.23(f), when reporting cooling
capacity pursuant to 10 CFR
429.15(b)(2) and calculating energy
consumption and costs pursuant to 10
CFR 430.23(f), use the cooling capacity
determined for test condition 1 in Table
1 of this appendix.
Replace Section 5.2 to read as follows:
Determine the condition-specific
electrical power input (expressed in
watts), Ptc, for each of the four cooling
mode rating test conditions, as required
by section 6.5 of ANSI/AHAM RAC–1
(incorporated by reference; see 10 CFR
430.3) and in accordance with ANSI/
ASHRAE 16 (incorporated by reference;
see 10 CFR 430.3). Notwithstanding the
requirements of 10 CFR 430.23(f), when
reporting electrical power input
pursuant to 10 CFR 429.15(b)(2) and
calculating energy consumption and
Condenser inlet
(outdoor) air, °F
Dry Bulb
67
67
67
67
Wet Bulb
95
92
87
82
costs pursuant to 10 CFR 430.23(f)(5),
use the electrical power input value
measured for test condition 1 in Table
1 of this appendix. Notwithstanding the
requirements of 10 CFR 430.23(f), when
calculating energy consumption and
costs pursuant to 10 CFR 430.23(f)(3),
use the weighted electrical power input,
Pwt, calculated in section 5.2.1 of this
appendix, as the electrical power input.
Insert a new Section 5.2.1:
5.2.1 Weighted electrical power
input. Calculate the weighted electrical
power input in cooling mode, Pwt,
expressed in watts, as follows:
Pwt = Stc Ptc × Wtc
Where:
Pwt = weighted electrical power input, in
watts, in cooling mode.
Ptc = electrical power input, in watts, in
cooling mode for each test condition in
Table 1 of this appendix.
Wtc = weighting factors for each cooling
mode test condition: 0.05 for test
condition 1, 0.16 for test condition 2,
0.31 for test condition 3, and 0.48 for test
condition 4.
tc represents the cooling mode test condition:
‘‘1’’ for test condition 1 (95 °F condenser
inlet dry-bulb temperature), ‘‘2’’ for test
condition 2 (92 °F), ‘‘3’’ for test condition
3 (87 °F), and ‘‘4’’ for test condition 4
(82 °F).
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Compressor
speed
75
72.5
69
65
Full.
Full.
Intermediate.
Low.
Add a new Section 5.4, following
Section 5.3 Standby mode and off mode
annual energy consumption:
5.4 Variable-speed room air
conditioner unit’s performance
adjustment factor. Calculate the
performance adjustment factor (Fp) as
follows:
5.4.1 Theoretical comparable singlespeed room air conditioner. Calculate
the cooling capacity, expressed in
British thermal units per hour (Btu/h),
and electrical power input, expressed in
watts, for a theoretical comparable
single-speed room air conditioner at all
cooling mode test conditions.
Capacityss_tc = Capacity1 × (1 + (Mc ×
(95¥Ttc)))
Pss_tc = P1 × (1¥(Mp × (95¥Ttc)))
Where:
Capacityss_tc = theoretical comparable singlespeed room air conditioner cooling
capacity, in Btu/h, calculated for each of
the cooling mode test conditions in
Table 1 of this appendix.
Capacity1 = variable-speed room air
conditioner unit’s cooling capacity, in
Btu/h, determined in section 5.1 of this
appendix for test condition 1 in Table 1
of this appendix.
Pss_tc = theoretical comparable single-speed
room air conditioner electrical power
input, in watts, calculated for each of the
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cooling mode test conditions in Table 1
of this appendix.
P1 = variable-speed room air conditioner
unit’s electrical power input, in watts,
determined in section 5.2 of this
appendix for test condition 1 in Table 1
of this appendix.
Mc = adjustment factor to determine the
increased capacity at lower outdoor test
conditions, 0.0099.
Mp = adjustment factor to determine the
reduced electrical power input at lower
outdoor test conditions, 0.0076.
Ttc = condenser inlet dry-bulb temperature
for each of the test conditions in Table
1 of this appendix (in °F).
95 is the condenser inlet dry-bulb
temperature for test condition 1 in Table
1 of this appendix, 95 °F.
tc as explained in section 5.2.1 of this
appendix.
5.4.2 Variable-speed room air
conditioner unit’s annual energy
consumption for cooling mode at each
cooling mode test condition. Calculate
the annual energy consumption for
cooling mode under each test condition,
AECtc, expressed in kilowatt-hours per
year (kWh/year), as follows:
AECtc = 0.75 × Ptc
Where:
AECtc = variable-speed room air conditioner
unit’s annual energy consumption, in
kWh/year, in cooling mode for each test
condition in Table 1 of this appendix.
Ptc as defined in section 5.2.1 of this
appendix.
tc as explained in section 5.2.1 of this
appendix.
0.75 is 750 annual operating hours in cooling
mode multiplied by a 0.001 kWh/Wh
conversion factor from watt-hours to
kilowatt-hours.
5.4.3 Theoretical comparable singlespeed room air conditioner annual
energy consumption for cooling mode at
each cooling mode test condition.
Calculate the annual energy
consumption for a theoretical
comparable single-speed room air
conditioner for cooling mode under
each test condition, AECss_tc, expressed
in kWh/year.
AECss_tc = 0.75 × Pss_tc
5.4.4 Variable-speed room air
conditioner unit’s combined energy
efficiency ratio at each cooling mode
test condition. Calculate the variablespeed room air conditioner unit’s
combined energy efficiency ratio,
CEERtc, for each test condition,
expressed in Btu/Wh.
Where:
CEERtc = variable-speed room air conditioner
unit’s combined energy efficiency ratio,
in Btu/Wh, for each test condition in
Table 1 of this appendix.
Capacitytc = variable-speed room air
conditioner unit’s cooling capacity, in
Btu/h, for each test condition in Table 1
of this appendix, determined in section
5.1 of this appendix.
AECtc = variable-speed room air conditioner
unit’s annual energy consumption, in
kWh/yr, in cooling mode for each test
condition in Table 1 of this appendix,
determined in section 5.4.2 of this
appendix.
ETSO = standby mode and off mode annual
energy consumption for room air
conditioners, in kWh/year, determined
in section 5.3 of this appendix.
tc as explained in section 5.2.1 of this
appendix.
0.75 as defined in section 5.4.2 of this
appendix.
5.4.5 Theoretical comparable singlespeed room air conditioner combined
energy efficiency ratio at each cooling
mode test condition. Calculate the
combined energy efficiency ratio for a
theoretical comparable single-speed
room air conditioner, CEERss_tc, for each
test condition, expressed in Btu/Wh.
5.4.6 Theoretical comparable singlespeed room air conditioner adjusted
combined energy efficiency ratio for
each cooling mode test condition.
Calculate the adjusted combined energy
efficiency ratio for a theoretical
comparable single-speed room air
conditioner, CEERss_tc_adj, with cycling
losses considered, expressed in Btu/Wh.
CEERss_tc_adj = CEERss_tc × CLFtc
Where:
CEERss_tc_adj = theoretical comparable singlespeed room air conditioner adjusted
combined energy efficiency ratio, in Btu/
Wh, for each test condition in Table 1 of
this appendix.
CEERss_tc = theoretical comparable singlespeed room air conditioner adjusted
combined energy efficiency ratio, in Btu/
Wh, for each test condition in Table 1 of
this appendix, determined in section
5.4.5 of this appendix.
CLFtc = cycling loss factor for each cooling
mode test condition: 1 for test condition
1, 0.971 for test condition 2, 0.923 for
test condition 3, and 0.875 for test
condition 4.
tc as explained in section 5.2.1 of this
appendix.
5.4.7 Weighted combined energy
efficiency ratio. Calculate the weighted
combined energy efficiency ratio for the
variable-speed room air conditioner
unit, CEERwt, and theoretical
comparable single-speed room air
conditioner, CEERss_wt, expressed in
Btu/Wh.
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Where:
CEERss_tc = theoretical comparable singlespeed room air conditioner combined
energy efficiency ratio, in Btu/Wh, for
each test condition in Table 1 of this
appendix.
Capacityss_tc = theoretical comparable singlespeed room air conditioner cooling
capacity, in Btu/h, for each test
condition in Table 1 of this appendix, in
Btu/h, determined in section 5.4.1 of this
appendix.
AECss_tc = theoretical comparable singlespeed room air conditioner annual
energy consumption for each test
condition in Table 1 of this appendix, in
kWh/year, determined in section 5.4.3 of
this appendix.
ETSO = standby mode and off mode annual
energy consumption for room air
conditioners, in kWh/year, determined
in section 5.3 of this appendix.
tc as explained in section 5.2.1 of this
appendix.
0.75 as defined in section 5.4.2 of this
appendix.
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Where:
AECss_tc = theoretical comparable singlespeed room air conditioner annual
energy consumption, in kWh/year, in
cooling mode for each test condition in
Table 1 of this appendix.
Pss_tc = theoretical comparable single-speed
room air conditioner electrical power
input, in watts, in cooling mode for each
test condition in Table 1 of this
appendix, determined in section 5.4.1 of
this appendix.
tc as explained in section 5.2.1 of this
appendix.
0.75 as defined in section 5.4.2 of this
appendix.
5.4.8 Variable-speed room air
conditioner unit’s performance
adjustment factor. Calculate the
variable-speed room air conditioner
unit’s performance adjustment
factor, Fp.
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Where:
Fp = variable-speed room air conditioner
unit’s performance adjustment factor.
CEERwt = variable-speed room air conditioner
unit’s weighted combined energy
efficiency ratio, in Btu/Wh, determined
in section 5.4.7 of this appendix.
CEERss_wt = theoretical comparable singlespeed room air conditioner weighted
combined energy efficiency ratio, in Btu/
Wh, determined in section 5.4.7 of this
appendix.
(3) Representations. Midea may not
make representations about the
efficiency of any basic model listed in
paragraph (1) for any purpose,
including, for example, compliance and
marketing, unless the basic model has
been tested in accordance with the
provisions set forth above and such
representations fairly disclose the
results of such testing in accordance
with 10 CFR 429.15(a).
(4) This interim waiver shall remain
in effect according to the provisions of
10 CFR 430.27.
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(5) DOE issues this interim waiver to
Midea on the condition that the
statements, representations, and
information provided by Midea are
valid. Any modifications to the controls
or configurations of a basic model
subject to this waiver will render the
waiver invalid with respect to that basic
model, and Midea will either be
required to use the current Federal test
procedure or submit a new application
for a test procedure waiver. DOE may
rescind or modify this waiver at any
time if it determines the factual basis
underlying the petition for waiver is
incorrect, or the results from the
alternate test procedure are
unrepresentative of a basic model’s true
energy consumption characteristics. 10
CFR 430.27(k)(1). Likewise, Midea may
request that DOE rescind or modify the
interim waiver if Midea discovers an
error in the information provided to
DOE as part of its petition, determines
that the interim waiver is no longer
needed, or for other appropriate reasons.
10 CFR 430.27(k)(2).
(6) Midea remains obligated to fulfill
the certification requirements set forth
at 10 CFR part 429.
DOE makes decisions on waivers and
interim waivers for only those basic
models specifically listed in the
petition, not future models that may be
manufactured by the petitioner. Midea
may submit a new or amended petition
for waiver and request for grant of
interim waiver, as appropriate, for
additional basic models of room air
conditioners. Alternatively, if
appropriate, Midea may request that
DOE extend the scope of a waiver or an
interim waiver to include additional
basic models employing the same
technology as the basic model(s) listed
in the original petition consistent with
10 CFR 430.27(g).
V. Request for Comments
DOE is publishing Midea’s petition
for waiver in its entirety, pursuant to 10
CFR 430.27(b)(1)(iv).8 The petition
includes a suggested alternate test
procedure, as specified in the petition
8 The petition did not identify any of the
information contained therein as confidential
business information.
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and summarized in section III of this
document, to determine the efficiency of
Midea’s listed room air conditioners.
DOE may consider including the
alternate procedure specified in the
Interim Waiver Order, specified in
section IV of this document, in a
subsequent Decision and Order.
DOE invites all interested parties to
submit in writing January 13, 2020,
comments and information on all
aspects of the petition, including the
alternate test procedure. Pursuant to 10
CFR 430.27(d), any person submitting
written comments to DOE must also
send a copy of such comments to the
petitioner. The contact information for
the petitioner is Phil Hombroek, Midea
America Research Center, 2700
Chestnut Station Court, Louisville, KY
40299.
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
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
E:\FR\FM\13DEN1.SGM
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Where:
CEERwt = variable-speed room air conditioner
unit’s weighted combined energy
efficiency ratio, in Btu/Wh.
CEERss_wt = theoretical comparable singlespeed room air conditioner weighted
combined energy efficiency ratio, in Btu/
Wh.
CEERtc = variable-speed room air conditioner
unit’s combined energy efficiency ratio,
in Btu/Wh, at each test condition in
Table 1 of this appendix, determined in
section 5.4.4 of this appendix.
CEERss_tc_adj = theoretical comparable singlespeed room air conditioner adjusted
combined energy efficiency ratio, in Btu/
Wh, at each test condition in Table 1 of
this appendix, determined in section
5.4.6 of this appendix.
Wtc as defined in section 5.2.1 of this
appendix.
tc as explained in section 5.2.1 of this
appendix.
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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
website 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.
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17:42 Dec 12, 2019
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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).
Signed in Washington, DC, on November
18, 2019.
Alexander N. Fitzsimmons,
Acting Deputy Assistant Secretary for Energy
Efficiency, Energy Efficiency and Renewable
Energy.
Midea America Research Center
2700 Chestnut Station Court
Louisville, KY 40299
3/25/2019
Via Email:
ASlWaiverlRequests@ee.doe.gov
Assistant Secretary of Energy Efficiency
and Renewable Energy
U.S. Department of Energy
Building Technologies Program, Test
Procedure Waiver
1000 Independence Avenue, SW
Mailstop EE-5B,
Washington, DC 20585
Daniel Simmons
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Re: Petition for Waiver & Application
for Interim Waiver Regarding Test
Procedure for Room Air Conditioners,
Using 10 CFR part 430, subpart B,
Appendix F.
On behalf of GD Midea Air
Conditioning Equipment Co. LTD.
(Midea), Midea America Research
Center respectfully submits this Petition
for Waiver (‘‘Waiver’’), and Application
for Interim Waiver (‘‘Interim Waiver’’)
regarding the Department of Energy
(‘‘DOE’’) Test Procedures for room air
conditioners (RACs), pursuant to 10
CFR 430.27 Appendix F.
Midea requests that DOE grant Midea
a Waiver and Interim Waiver because
the current test procedure does not
accurately measure the energy
consumption of RACs with variablespeed compressors (‘‘VSC’’). Midea
requests expedited treatment of this
Petition and Application. Midea
submits that this request is fully
consistent with the approach used in
the previously granted Interim
Waiver by LG Electronics Inc. (‘‘LG’’)
[Case Number 2018–003; EERE–2018–
BT–WAV–006] dated June 29, 2018.
Midea notes that this request is
consistent with DOE’s authority to grant
a Waiver. Midea further submits that it
is within the DOE’s authority to grant an
Interim Waiver to avoid economic
hardship and competitive disadvantage
of Midea.
1. About Midea
Midea is the world’s largest producer
of major appliances, and the world’s
No.1 brand of air-treatment products,
air-coolers, kettles, and rice cookers.
Midea Group is a world leading
technologies group in consumer
appliances, HVAC systems, robotics and
industrial automation systems, and
smart supply chain (logistics). Midea
offers diversified products, comprised of
consumer appliances (kitchen
appliances, refrigerators, laundry
appliances, and various small home
appliances), HVAC (residential airconditioning, commercial airconditioning, heating & ventilation), and
robotics and industrial automation
(Kuka Group and Yaskawa joint
venture). Midea is committed to
improving lives by adhering to the
principle of ‘‘Creating Value for
Customers’’. Midea focuses on
continuous technological innovation to
improve products and services to make
life more comfortable and pleasant.
Midea’s United States affiliate is
Midea America Corp, with
headquarters at 5 Sylvan Way, Suite
100, Parsippany, NJ 07054 (tel. 973–
539–5330) URL: www.us.midea.com/.
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Its worldwide headquarters are located
at Midea Group headquarter building,
No. 6 Midea Avenue, Beijiao, Shunde,
Foshan, Guangdong, 528311 P.R. China;
(tel. 011–86–757–2633–888); URL:
www.midea.com/global. Midea
America Research Center, at 2700
Chestnut Station Court, Louisville, KY
40299, (tel. 502–709–6067). Its Room
Air Conditioner headquarters is located
at GD Midea Air Conditioning
Equipment Co. LTD, No 6. Midea
Avenue, Shunde Foshan, Guangdong
528311
2. Basic models subject to the Waiver
request
This Petition for Waiver and
Application for Interim Waiver is for all
of the following basic models of
residential room air conditioners
manufactured by Midea. All models are
in product class 3.
The following Midea Branded Basic
Models are listed below:
In Product Class 3. Without reverse
cycle, with louvered sides and 8,000 to
13,999 British Thermal Units (BTU)/
hour (hr).
MAW08V1DWT (TENTATIVE 8,000 BTU/HR
CAPACITY INVERTER)
MAW08V1QWT (TENTATIVE 8,000 BTU/HR
CAPACITY INVERTER)
MAW10V1DWT (TENTATIVE 10,000 BTU/HR
CAPACITY INVERTER)
MAW10V1QWT (TENTATIVE 10,000 BTU/HR
CAPACITY INVERTER)
MAW12V1DWT (TENTATIVE 12,000 BTU/HR
CAPACITY INVERTER)
MAW12V1QWT (TENTATIVE 12,000 BTU/HR
CAPACITY INVERTER)
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3. Requested Waiver
Midea requests the approval to test
the energy consumption of the above
residential room air conditioners using
the same methodology and test
procedure detailed in the granted
interim waiver by LG Electronics [Case
Number 2018–003; EERE–2018–BT–
WAV–006] dated June 29, 2018.
Strong demand for advanced energy
efficient room air conditioners have led,
Midea to design room air conditioners
with dramatic energy savings, and the
ability to maintain the desired
temperature in the home without
cycling the compressor motor and fans
on and off. In this case, the compressor
responds automatically to surrounding
conditions by adjusting the compressor
rotational speed from low to high based
upon demand. This results in faster
cooling and much more efficient
operation through optimizing the speed
of the compressor to make minimal
adjustments as the room temperature
rises and falls.
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As LG mentions in their initial
waiver, the current DOE test procedure
requires that room air conditioners be
tested only at full-load performance. As
such, the test procedure does not take
into account the benefits of a VSC
accounting for partial load conditions.
Midea requests that the alternate test
procedure detailed in section III of the
granted interim waiver by LG
Electronics [Case Number 2018–003;
EERE–2018–BT–WAV–006] dated June
29, 2018 be used to determine the
energy consumption of the specific
models identified above. The four
cooling mode tests highlighted in Table
1 are the best and most appropriate
method to capture the actual energy
usage of this product.
4. Regulatory framework
DOE’s regulations found in 10 CFR
430.27, provide that the Assistant
Secretary will grant a Petition to a
manufacturer upon, ‘‘determination
that the basic model for which the
waiver was requested contains a
design characteristic which either
prevents testing of the basic model
according to the prescribed test
procedures, or the prescribed test
procedures may evaluate the basic
model in a manner so
unrepresentative of its true energy
consumption characteristics as to
provide materially inaccurate
comparative data.’’
Midea believes that this Petition
meets conditions stated above for when
DOE will grant a Petition. The current
DOE test procedure, 10 CFR 430
Appendix F, requires that RACs be
tested at full load conditions and does
not make any account for RACs offering
variable-speed operation based upon
different air test conditions. As a result,
Midea’s new VSC RACs cannot be tested
to the most appropriate test procedure
taking full advantage of the benefits of
VSC technology. If Midea were to test its
VSC RACs to the current test procedure
the results of energy would be wholly
unrepresentative of the true energy
consumption characteristics of the new
models.
5. Other manufacturers with similar
design characteristics
To Midea’s knowledge, the only other
models with similar design
characteristic are those listed in the
appendix of LG Electronics granted
Waiver [Case Number 2018–003; EERE–
2018–BT–WAV–006] dated June 29,
2018.
PO 00000
Frm 00068
Fmt 4703
Sfmt 4703
68167
6. Additional justification for Interim
Waiver Application
a. Strong likelihood that the waiver will
be granted
Midea has provided strong evidence
that the waiver should be granted. A
petition for waiver is appropriate
because the VSC RACs should not be
tested with the current test procedure
that does not accurately test VSC by
testing only in the full load condition.
These compressors can vary the speed
of the compressor based upon the
surrounding air conditions and will
optimize the energy usage based on
these conditions. A RAC without a VSC
cannot operate in this fashion. In these
RACs the compressor is either on at full
capacity or off. The test procedure
granted in the waiver provided by LG
Electronics on dated June 29, 2018 will
appropriately account for energy being
used at different test conditions.
Midea has also demonstrated that this
approach is consistent with past waiver
approaches that other manufacturers
have taken to receive DOE waivers.
b. Economic hardship & competitive
disadvantage.
In the absence of an Interim Waiver,
Midea will lack certainty as to whether
it can launch these VSC RACs. Midea
predicts strong consumer demand for
these VSC RACs, and the inability to
market through denial of an Interim
Waiver will cause economic hardship
and competitive disadvantage to Midea.
There are exceptionally long lead
times and significant expenses
associated with the design and
manufacturer of RACs. Compliance with
federally mandated energy consumption
standards is a critical design factor for
all of Midea’s RACs. Any delay in
obtaining clarity on this issue will cause
Midea to postpone key decisions
regarding its investments to build,
launch and market these RACs. In the
event that this Waiver is not approved,
Midea would not be able to move
forward with the launch of these
models, which would be a multimillion-dollar impact to the company
and would require costly contingency
plans and put us at a competitive
disadvantage to competitors that market
VSC RACs.
7. Certification of notice to other
manufacturers
Midea is providing concurrent notice
of this Petition for Waiver & Application
for Interim Waiver to the other known
manufacturers of Room Air
Conditioners made or sold in the United
States and to the Association of Home
Appliance Manufacturers. The cover
E:\FR\FM\13DEN1.SGM
13DEN1
68168
Federal Register / Vol. 84, No. 240 / Friday, December 13, 2019 / Notices
letters, including names and addresses
of other known manufacturers and the
industry association, is included in
Exhibit A.
8. Conclusion
Midea respectfully requests that the
DOE grant the above Petition for Waiver
and Interim Waiver. By granting this
Waiver, DOE will ensure that consumers
will have access to new, innovative and
energy efficient variable-speed
compressors RACs and Midea will avoid
economic hardship and competitive
disadvantage.
Thank you in advance for your
consideration and prompt response.
Arctic Wind, 5401 Dansher Rd., Countryside, IL 60525.
Brothers Air Conditioning, ATTN: J. McFadden, 1320 E Main St., Rock
Hill, SC 29730–5950.
CLASSIC, 7101 NW 43rd Street, Miami, Florida 33166.
Comfortaire Customer Service, P.O. Box 9219, Greenville, SC 29604.
Continental Electric c/o CEM Global, ATTN: Customer Service CE
North America, LLC, 6950 NW 77th Court, Miami, FL 33166.
Cool-Living, P.O. Box 893838, Mililani, HI 96789.
Costa Mechanical and Air, 613 SW Pine Island Rd., Unit 17, Cape
Coral, FL 33991.
Crosley, 952 Copperfield Blvd. NE, Concord, NC 28025.
Danby, ATTN: Greg Hall, 5070 Whitelaw Rd., Guelph, ON N1G 6Z9
CANADA.
DELLA, 19395 E Walnut Dr. N, City of Industry, CA 91748–1436.
Friedrich, ATTN: Stephen Pargeter, 10001 Reunion Pl., Ste., 500, San
Antonio, TX 78216.
Electrolux Home Products, North America, P.O. Box 3900, Peoria, IL
61612.
Garrison Heating and Cooling Products, c/o Interline Brands, 801 West
Bay Street, Jacksonville, FL 32204.
Global Industrial, 11 Harbor Park Dr., Port Washington, NY 11050.
GREE, ATTN: Huang Hui, West Jinji West Road, Qian Shan GNG,
Zhuhai, Guangdong, 519070 CHINA.
[FR Doc. 2019–26904 Filed 12–12–19; 8:45 am]
BILLING CODE 6450–01–P
DEPARTMENT OF ENERGY
Agency Information Collection
Extension
U.S. Department of Energy.
Submission for Office of
Management and Budget (OMB) review;
comment request.
AGENCY:
ACTION:
The Department of Energy
(DOE) has submitted an information
collection request to the OMB for
extension under the provisions of the
Paperwork Reduction Act of 1995. The
information collection requests a threeyear extension of its Financial
Assistance Information Collection, OMB
Control Number 1910–0400. This
information collection request covers
information necessary to administer and
manage DOE’s financial assistance
programs.
jbell on DSKJLSW7X2PROD with NOTICES
SUMMARY:
Comments regarding this
collection must be received on or before
January 13, 2020. If you anticipate
difficulty in submitting comments
within that period or if you want access
to the collection of information, without
charge, contact the OMB Desk Officer
DATES:
VerDate Sep<11>2014
17:42 Dec 12, 2019
Jkt 250001
Frm 00069
Fmt 4703
/s/
Phil Hombroek
Manager, Government Relations,
Midea America Research Center
Exhibit A
Haier, ATTN: Earl F. Jones Appliance Park, Building 2 Room 131, Louisville, KY 40225.
Kenmore, ATTN: Martin Olson, 3333 Beverly Rd., DC–201–B, Hoffman
Estates, IL 60179.
Kenmore Elite, ATTN: Martin Olson, 3333 Beverly Rd., DC–201–B,
Hoffman Estates, IL 60179.
Koldfront, 500 N Capital of Texas Hwy., Building 5, Austin, TX 78746.
Master Craft, 19000 Cleaton Dr., Edmon, OK 73012.
NORPOLE, 940 N Central Ave., Wood Dale, IL 60191–2802.
Perfect Aire, 5401 Dansher Rd., Countryside, IL 60525.
RCA, 180 Marcus Blvd., Hauppauge, New York, New York 11788.
Rowa, Shounan Industry Park Ningbo, China.
Sea Breeze, 3725 Commercial Way, Spring Hill, FL 34606.
SOLEUSAIR, 20035 E Walnut Dr. N, Industry, CA 91789.
TCL, 1255 Graphite Dr., Corona, CA 92881.
Thermal Zone, c/o United Refrigeration, 11401 Roosevelt Blvd., Philadelphia, PA 19154.
TOSOT, 5965 chemin de la cote de liesse, Montre´al, QC H4T 1C3.
Westpointe, 4849 Laurel Ridge Dr., Riverside, CA 92509.
for DOE listed below as soon as
possible.
ADDRESSES: Written comments should
be sent to the following: DOE Desk
Officer, Office of Information and
Regulatory Affairs, Office of
Management and Budget, New
Executive Office Building, Room 10102,
735 17th Street NW, Washington, DC
20503.
And to: Richard Bonnell, U.S.
Department of Energy, Office of
Acquisition Management, 1000
Independence Avenue SW, Washington,
DC 20585–0121, Or by email at
Richard.bonnell@hq.doe.gov.
FOR FURTHER INFORMATION CONTACT:
Richard Bonnell by email at
richard.bonnell@hq.doe.gov or
telephone (202) 287–1747. Please put
‘‘2020 DOE Agency Information
Collection Renewal-Financial
Assistance’’ in the subject line when
sending an email.
SUPPLEMENTARY INFORMATION: This
information collection request contains:
(1) OMB No.: 1910–0400 (Renewal); (2)
Information Collection Request Title:
DOE Financial Assistance Information
Clearance; (3) Type of Request: Renewal;
(4) Purpose: This information collection
package covers mandatory information
collections necessary to annually plan,
PO 00000
Sincerely,
Sfmt 4703
solicit, negotiate, award, administer,
and closeout grants and cooperative
agreements under the Department’s
financial assistance programs. The
information is used by Departmental
management to exercise management
oversight with respect to
implementation of applicable statutory
and regulatory requirements and
obligations. The collection of this
information is critical to ensure that the
Government has sufficient information
to judge the degree to which awardees
meet the terms of their agreements; that
public funds are spent in the manner
intended; and that fraud, waste, and
abuse are immediately detected and
eliminated; (5) Annual Estimated
Number of Respondents: 10,125; (6)
Annual Estimated Number of Total
Responses: 36,714; (7) Estimated
Number of Burden Hours: 524,040; and
(8) Annual Estimated Reporting and
Recordkeeping Cost Burden: $0.
Statutory Authority: Federal Grant
and Cooperative Agreement Act, 31
U.S.C. 6301–6308.
E:\FR\FM\13DEN1.SGM
13DEN1
]]>Agencies
[Federal Register Volume 84, Number 240 (Friday, December 13, 2019)]
[Notices]
[Pages 68159-68168]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2019-26904]
=======================================================================
-----------------------------------------------------------------------
DEPARTMENT OF ENERGY
[Case Number 2019-004; EERE-2019-BT-WAV-0009]
Notice of Petition for Waiver of GD Midea Air Conditioning
Equipment Co. LTD. from the Department of Energy Room Air Conditioner
Test Procedure and Notice of Grant of Interim Waiver
AGENCY: Office of Energy Efficiency and Renewable Energy, Department of
Energy.
ACTION: Notice of petition for waiver and grant of an interim waiver,
and request for comments.
-----------------------------------------------------------------------
SUMMARY: This document announces receipt of and publishes a petition
for waiver from GD Midea Air Conditioning Equipment Co. LTD.
(``Midea''), which seeks an exemption from the U.S. Department of
Energy (``DOE'') test procedure when determining the efficiency of
listed room air conditioner basic models. Midea seeks to use an
alternate test procedure to address issues involved in testing the
basic models listed in its petition. According to Midea, the current
DOE test procedure for room air conditioners, which provides for
testing at full-load performance only, does not take into account the
benefits of room air conditioners that use variable-speed compressors
(``variable-speed room air conditioners''), with their part-load
performance characteristics, and misrepresents their actual energy
consumption. Midea requests that DOE permit Midea to test the basic
models listed in its petition using the alternate test procedure in the
interim waiver granted to LG Electronics USA, Inc. (``LG'') on June 29,
2018, which requires testing units at four rating conditions instead of
a single rating condition and calculating each test unit's weighted-
average combined energy efficiency ratio (``CEER''), which is compared
to the expected performance of a theoretical comparable single-speed
room air conditioner across the same four rating conditions. The
measured performance of the variable-speed room air conditioner when
tested under the high-temperature rating condition of the DOE test
procedure for room air conditioners would be scaled by the same
relative performance improvement to determine the test unit's final
rated CEER value. DOE grants Midea an interim waiver from DOE's room
air conditioner test procedure for the basic models listed in the
Interim Waiver Order, subject to use of the alternate test procedure as
set forth in the Interim Waiver Order. DOE solicits comments, data, and
information concerning Midea's petition and its suggested alternate
test procedure to inform its final decision on Midea's waiver request.
DATES: Written comments and information will be accepted on or before
January 13, 2020.
ADDRESSES: Interested persons are encouraged to submit comments using
the Federal eRulemaking Portal at https://www.regulations.gov.
Alternatively, interested persons may submit comments, identified by
case number ``2019-004'', and Docket number ``EERE-2019-BT-WAV-0009,''
by any of the following methods:
Federal eRulemaking Portal: https://www.regulations.gov.
Follow the instructions for submitting comments.
E-mail: [email protected] Include the
case number [Case No. 2019-004] in the subject line of the message.
Postal Mail: Appliance and Equipment Standards Program,
U.S. Department of Energy, Office of Energy Efficiency and Renewable
Energy, Building Technologies Office, Mailstop EE-5B, Petition for
Waiver Case No. 2019-004, 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.
[[Page 68160]]
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. 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 V of this document.
Docket: The docket, 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/docket?D=EERE-2019-BT-WAV-0009. The docket web page contains simple
instruction on how to access all documents, including public comments,
in the docket. See section V for information on how to submit comments
through https://www.regulations.gov.
FOR FURTHER INFORMATION CONTACT:
Ms. Lucy deButts, U.S. Department of Energy, Office of Energy
Efficiency and Renewable Energy, Building Technologies Office, Mailstop
EE-5B, 1000 Independence Avenue SW, Washington, DC 20585-0121. E-mail:
[email protected].
Ms. Sarah Butler, U.S. Department of Energy, Office of the General
Counsel, Mail Stop GC-33, Forrestal Building, 1000 Independence Avenue
SW, Washington, DC 20585-0103. Telephone: (202) 586-1777. E-mail:
[email protected].
SUPPLEMENTARY INFORMATION:
I. Background and Authority
The Energy Policy and Conservation Act (``EPCA'' or ``the
Act''),\1\ Public Law 94-163 (42 U.S.C. 6291-6317, as codified),
authorizes DOE to regulate the energy efficiency of certain consumer
products and industrial equipment. Title III, Part B \2\ of EPCA
established the Energy Conservation Program for Consumer Products Other
Than Automobiles, a program that includes room air conditioners, which
are the focus of this document. (42 U.S.C. 6292(a)(2))
---------------------------------------------------------------------------
\1\ All references to EPCA in this document refer to the statute
as amended through America's Water Infrastructure Act of 2018,
Public Law 115-270 (October 23, 2018).
\2\ For editorial reasons, upon codification in the U.S. Code,
Part B was redesignated as Part A.
---------------------------------------------------------------------------
DOE regulations set forth at 10 CFR 430.27 contain provisions that
allow any interested person to seek a waiver from test procedure
requirements for a particular basic model when the petitioner's basic
model for which the petition for waiver was submitted contains one or
more design characteristics that either (1) prevent testing according
to the prescribed test procedure, or (2) cause the prescribed test
procedure to evaluate the basic model in a manner so unrepresentative
of its true energy consumption characteristics as to provide materially
inaccurate comparative data. 10 CFR 430.27(f)(2). A petitioner must
include in its petition any alternate test procedures known to the
petitioner to evaluate the basic model in a manner representative of
its energy consumption characteristics. 10 CFR 430.27(b)(1)(iii).
DOE may grant the waiver subject to conditions, including adherence
to alternate test procedures. 10 CFR 430.27(f)(2). As soon as
practicable after the granting of any waiver, DOE will publish in the
Federal Register a notice of proposed rulemaking to amend its
regulations so as to eliminate any need for the continuation of such
waiver. 10 CFR 430.27(l). As soon thereafter as practicable, DOE will
publish in the Federal Register a final rule. Id.
The waiver process also provides that DOE may grant an interim
waiver if it appears likely that DOE will grant the underlying petition
for waiver and/or if DOE determines that it would be desirable for
public policy reasons to grant immediate relief pending a determination
on the underlying petition for waiver. 10 CFR 430.27(e)(2). Within one
year of issuance of an interim waiver, DOE will either: (i) Publish in
the Federal Register a determination on the petition for waiver; or
(ii) publish in the Federal Register a new or amended test procedure
that addresses the issues presented in the waiver. 10 CFR 430.27(h)(1).
When DOE amends the test procedure to address the issues presented in a
waiver, the waiver will automatically terminate on the date on which
use of that test procedure is required to demonstrate compliance. 10
CFR 430.27(h)(2).
II. Midea's Petition for Waiver and Petition for Interim Waiver
On March 25, 2019, Midea filed a petition for waiver and a petition
for interim waiver from the test procedure applicable to room air
conditioners set forth in appendix F.\3\ According to Midea, the
current DOE test procedure for room air conditioners, which provides
for testing at full-load performance only (i.e., at a single indoor and
high-temperature outdoor operating condition), does not take into
account the benefits of variable-speed room air conditioners, with
their part-load performance characteristics, and misrepresents their
actual energy consumption.\4\ Appendix F requires testing room air
conditioners only with full-load performance, in part, as a result of
DOE having previously concluded that widespread use of part-load
technology in room air conditioners was not likely to be stimulated by
the development of a part-load metric. 76 FR 972, 1016 (January 6,
2011).
---------------------------------------------------------------------------
\3\ Midea's petition for a waiver and petition for an interim
waiver is provided in the docket located at: https://www.regulations.gov/document?D=EERE-2019-BT-WAV-0009-0001.
\4\ The specific basic models for which the petition applies are
room air conditioner basic models Midea MAW08V1DWT, Midea
MAW08V1QWT, Midea MAW10V1DWT, Midea MAW10V1QWT, Midea MAW12V1DWT,
and Midea MAW12V1QWT. These basic model names were provided by Midea
in its March 25, 2019 petition.
---------------------------------------------------------------------------
Midea states that, to operate in the most efficient possible
manner, variable-speed room air conditioners adjust the compressor
rotation speed based upon demand to maintain the desired temperature in
the home without turning the compressor and blower motor(s) on and off.
Midea claims that, compared to room air conditioners without variable-
speed compressors, this ability to adjust to conditions results in both
significant energy savings and faster cooling. Midea asserts that
because the DOE test procedure does not account for part-load
characteristics, the results of the test procedure are not
representative of the benefits of variable-speed room air conditioners.
Midea asserts that the suggested approach is consistent with an
interim waiver issued to LG Electronics USA, Inc. (``LG'') on June 29,
2018. 83 FR 30717.
Midea also requests an interim waiver from the existing DOE test
procedure. DOE will grant an interim waiver if it appears likely that
the petition for waiver will be granted, and/or if DOE determines that
it would be desirable for public policy reasons to grant immediate
relief pending a determination of the petition for waiver. See 10 CFR
430.27(e)(2).
DOE understands that, absent an interim waiver, the test procedure
does not accurately measure the energy
[[Page 68161]]
consumption of variable-speed room air conditioners, and without waiver
relief, the part-load characteristics of the basic models identified in
Midea's petition would not be captured.
III. Requested Alternate Test Procedure
EPCA requires that manufacturers use DOE test procedures when
making representations about the energy efficiency or energy
consumption and corresponding costs of products covered by the statute.
(42 U.S.C. 6293(c)) Consistent representations are important for
manufacturers to use in making representations about the energy
efficiency of their products and to demonstrate compliance with
applicable DOE energy conservation standards. Pursuant to its
regulations applicable to waivers and interim waivers from applicable
test procedures at 10 CFR 430.27, and after consideration of public
comments on the petition, DOE in a subsequent Decision and Order will
consider setting an alternate test procedure for the basic models
listed by Midea.
Midea requests testing the basic models listed in its petition
according to the test procedure for variable-speed room air
conditioners prescribed by DOE in an interim waiver granted to LG. That
waiver required testing variable-speed room air conditioners according
to the test procedure in appendix F, except instead of a single rating
condition, testing of a variable-speed room air conditioner occurred at
four rating conditions. 83 FR 30717 (``LG Interim Waiver''). DOE later
issued a Decision and Order to LG that supersedes the interim waiver.
The four test conditions Midea suggested, identical to those in the LG
Decision and Order, are presented in Table III.1.
Table III.1--Indoor and Outdoor Inlet Air Test Conditions--Variable-Speed Room Air Conditioners
----------------------------------------------------------------------------------------------------------------
Evaporator inlet (indoor) air, Condenser inlet (outdoor) air,
[deg]F [deg]F
Test condition ---------------------------------------------------------------- Compressor speed
Dry bulb Wet bulb Dry bulb Wet bulb
----------------------------------------------------------------------------------------------------------------
Test Condition 1............ 80 67 95 75 Full.
Test Condition 2............ 80 67 92 72.5 Full.
Test Condition 3............ 80 67 87 69 Intermediate.
Test Condition 4............ 80 67 82 65 Low.
----------------------------------------------------------------------------------------------------------------
Under the suggested test procedure, the test unit's weighted-
average combined energy efficiency ratio (CEER) metric is calculated
from the individual CEER values obtained at the four rating conditions.
DOE based the room air conditioner weighting factors for each rating
temperature on the fractional temperature bin hours provided in Table
19 of DOE's test procedure for central air conditioners (10 CFR part
430, subpart B, appendix M (``appendix M'')). This weighted-average
value is adjusted to normalize it against the expected weighted-average
CEER under the same four rating conditions of a theoretical comparable
single-speed room air conditioner. This theoretical air conditioner is
one that at the 95 degree Fahrenheit ([deg]F) test condition performs
the same as the variable-speed test unit, but with differing
performance at the other rating conditions. The differing performance
is due to optimization of the refrigeration system efficiency through
compressor speed adjustments to eliminate cycling losses and better
match the cooling load. To determine the test unit's final rated CEER
value, Midea would multiply a performance adjustment factor and the
measured performance of the variable-speed room air conditioner when
tested at the 95 [deg]F rating condition according to appendix F. The
factor reflects the average performance improvement due to the
variable-speed compressor across multiple rating conditions. Midea
states that this approach takes into account performance and efficiency
improvements associated with variable-speed room air conditioners as
compared to room air conditions with single-speed compressors and
isolates the effects just attributable to the variable speed operation.
IV. Grant of an Interim Waiver
DOE has reviewed Midea's petition for an interim waiver and the
alternate test procedure requested by Midea. These materials that DOE
reviewed support Midea's assertion of the part-load characteristics of
the listed basic models and that the DOE test procedure may evaluate
the basic models in a manner unrepresentative of their true energy
consumption characteristics. In particular, the DOE test procedure does
not capture the relative efficiency improvements that can be achieved
by variable-speed room air conditioners over a range of operating
conditions compared to single-speed room air conditioners. In the
absence of an alternate test procedure, the CEER values of variable-
speed room air conditioners would suggest they consume at least as much
energy annually as a comparable single-speed room air conditioner,
despite the anticipated benefits of improved performance under part-
load conditions. Furthermore, DOE has reviewed the alternate procedure
suggested by Midea, along with the additional performance modeling and
analysis performed by DOE conducted in evaluation of the LG Interim
Waiver.\5\ Based on this review it appears that the suggested alternate
test procedure, with the changes described below, will allow for a more
accurate measurement of efficiency of the listed basic models of
variable-speed room air conditioners, while alleviating the testing
problems associated with Midea's testing those basic models.
---------------------------------------------------------------------------
\5\ The modeling and analysis conducted in evaluation of the LG
Interim Waiver is available at: https://www.regulations.gov/docket?D=EERE-2018-BT-WAV-0006.
---------------------------------------------------------------------------
DOE incorporated the following changes into the suggested alternate
test procedure, based on further review undertaken for the alternate
test procedure in the waiver DOE granted to LG in a Decision and Order
published in the Federal Register on May 8, 2019. 82 FR 20111 (``LG
Decision and Order''). First, DOE is providing compressor speed
definitions to harmonize the alternate test procedure with industry
standards. Second, because fixed compressor speeds are critical to the
repeatability of the alternate test procedure, Midea provided DOE all
necessary instructions to maintain the compressor speeds required for
each test condition (Docket No. EERE-2019-BT-WAV-0009-0003). This
includes the compressor frequency set points at each test condition,
instructions necessary to maintain the compressor speeds required for
each test condition, and the control settings used for the variable
[[Page 68162]]
components.\6\ Third, DOE modified the annual energy consumption and
corresponding cost calculations by specifying the correct method to
incorporate electrical power input data in 10 CFR 430.23(f), to ensure
EnergyGuide labels present consistent and appropriate information to
consumers. Fourth, DOE adjusted the CEER calculations in appendix F for
clarity. Fifth, as discussed in the LG Decision and Order, DOE is not
providing the option provided in the LG Interim Waiver to test the
specified variable-speed room air conditioners using the air-enthalpy
method. There are two reasons for this. One is that, compared to the
calorimeter method, the air-enthalpy method's measured results differ.
The other is that there is heat transfer within and through the unit
chassis that the calorimeter method captures but the air-enthalpy
method does not. 84 FR 20111, 20117. Sixth, to ensure that the low and
intermediate compressor speeds result in representative cooling
capacity under reduced loads, the low compressor speed definition
requires that the test unit's measured cooling capacity at the 82
[deg]F rating condition be no less than 47 percent and no greater than
57 percent of the measured cooling capacity when operating at the full
compressor speed at the 95 [deg]F rating condition.\7\
---------------------------------------------------------------------------
\6\ Pursuant to 10 CFR 1004.11, if the manufacturer submits
information that it believes to be confidential and exempt by law
from public disclosure, the manufacturer 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. DOE will make its own determination about the
confidential status of the information and treat it according to its
determination.
\7\ Two aspects of the cooling load range are important: (1) The
cooling load at 82 [deg]F should be no more than 57 percent of the
full-load cooling capacity according to the Air-Conditioning,
Heating, and Refrigeration Institute (AHRI) Standard 210/240-2017,
``Performance Rating of Unitary Air-conditioning & Air-source Heat
Pump Equipment,'' and (2) a 10-percent tolerance on the measured
cooling capacity is necessary because some variable-speed room ACs
adjust speed in discrete steps, so it may not be possible to achieve
the 57-percent condition exactly. To provide for the 10-percent
tolerance, DOE requires the 57-percent cooling load condition as the
upper end of the range and allows down to a 47-percent cooling load.
This ensures the cooling load never exceeds 57 percent. The
compressor speed nomenclature and definition clarifications are
derived from AHRI 210/240-2017 and adapted to be applicable to room
ACs. Equation 11.60 in AHRI 210/240-2017 relates the building load
to an AC's full-load cooling capacity and outdoor temperature, and
assumes full-load operation at 98 [deg]F outdoor temperature. To
provide consistency with the full-load test condition for room ACs,
DOE adjusted (i.e., normalized) this equation to reflect full-load
operation at 95 [deg]F outdoor temperature. Using the adjusted
equation suggests that the representative cooling load at the 82
[deg]F rating condition would be 57 percent of the full-load cooling
capacity for room air conditioners. DOE recognizes that variable-
speed room ACs may use compressors that vary their speed in discrete
steps and may not be able to operate at a speed that provides
exactly 57 percent cooling capacity. Therefore, the defined cooling
capacity associated with the low compressor speed is presented as a
10-percent range rather than a single value. 57 percent cooling load
is the upper bound of the 10-percent range defining the cooling
capacity associated with the lower compressor speed (i.e., the range
is defined as 47 to 57 percent). This ensures that the variable-
speed room AC is capable of matching the representative cooling load
(57 percent of the maximum) at the 82 [deg]F rating condition, while
providing the performance benefits associated with variable-speed
operation. In contrast, if the 10-percent range were to be defined
as, for example, 52 to 62 percent (with 57 percent as the midpoint),
a variable-speed room AC could be tested at 60 percent, for example,
without demonstrating the capability to maintain variable-speed
performance down to 57 percent.
---------------------------------------------------------------------------
DOE has found that the suggested alternate test procedure, with the
discussed modifications, will produce more accurate final CEER values
for the variable-speed room air conditioners under the DOE test
procedure's existing rating condition. The more accurate results
reflect the average performance improvement associated with variable-
speed compressors relative to comparable single-speed room air
conditioners at differing operating conditions (i.e., optimization of
the refrigeration system efficiency through compressor speed
adjustments to better match the cooling load and eliminate cycling
losses). Consequently, it appears likely that DOE will grant Midea's
petition for waiver. Furthermore, DOE has determined that it is
desirable for public policy reasons to grant Midea immediate relief
pending a determination of the petition for waiver.
For the reasons stated, DOE has granted an interim waiver to GD
Midea Air Conditioning Equipment Co. LTD (``Midea'') for the room air
conditioner basic models listed in paragraph (1)(A) below. Therefore,
DOE has issued an order stating:
(1) Midea must test and rate the following room air conditioner
basic models with the alternate test procedure set forth in paragraph
(2):
------------------------------------------------------------------------
Brand Basic model
------------------------------------------------------------------------
Midea..................................... MAW08V1DWT
Midea..................................... MAW08V1QWT
Midea..................................... MAW10V1DWT
Midea..................................... MAW10V1QWT
Midea..................................... MAW12V1DWT
Midea..................................... MAW12V1QWT
------------------------------------------------------------------------
(2) The alternate test procedure for the Midea basic models listed
in paragraph (1) is the test procedure for room air conditioners
prescribed by DOE at appendix F to subpart B of 10 CFR part 430
(Appendix F) and 10 CFR 430.23(f), except (i) determine the combined
energy efficiency ratio (``CEER'') as detailed below, and (ii)
calculate the average annual energy consumption referenced in 10 CFR
430.23(f)(3) as detailed below. In addition, for each basic model
listed in paragraph (1), maintain compressor speeds at each test
condition and set control settings for the variable components,
according to the instructions GD Midea Air Conditioning Equipment Co.
LTD submitted to DOE (https://www.regulations.gov/document?D=EERE-2019-BT-WAV-0009-0003). All other requirements of Appendix F and DOE's
regulations remain applicable.
In 10 CFR 430.23, in paragraph (f) revise paragraph (3)(i) to read
as follows:
The electrical power input in kilowatts as calculated in section
5.2.1 of appendix F to this subpart, and
In 10 CFR 430.23, in paragraph (f) revise paragraph (5) to read as
follows:
(5) Calculate the combined energy efficiency ratio for room air
conditioners, expressed in Btu's per watt-hour, as follows:
(i) Calculate the quotient of:
(A) The cooling capacity as determined at the 95 [deg]F outdoor
test condition, Capacity1, in Btus per hour, as determined
in accordance with section 5.1 of appendix F to this subpart multiplied
by the representative average-use cycle of 750 hours of compressor
operation per year, divided by
(B) The combined annual energy consumption, in watt hours, which is
the sum of the annual energy consumption for cooling mode, calculated
in section 5.4.2 of appendix F to this subpart for test condition 1 in
Table 1 of appendix F to this subpart, and the standby mode and off
mode energy consumption, as determined in accordance with section 5.3
of appendix F to this subpart. Multiply the sum of the annual energy
consumption in cooling mode and standby mode and off mode energy
consumption by a conversion factor of 1,000 to convert kilowatt-hours
to watt-hours.
(ii) Multiply the quotient calculated in paragraph (f)(5)(i) of
this section by (1 + Fp), where Fp is the variable-speed room air
conditioner unit's performance adjustment factor as determined in
section 5.4.8 of appendix F to this subpart.
(iii) Round the resulting value from paragraph (f)(5)(ii) of this
section to the nearest 0.1 Btu per watt-hour.
[[Page 68163]]
In appendix F:
Add in Section 1, Definitions:
1.8 ``Single-speed'' means a type of room air conditioner that
cannot automatically adjust the compressor speed based on detected
conditions.
1.9 ``Variable-speed'' means a type of room air conditioner that
can automatically adjust the compressor speed based on detected
conditions.
1.10 ``Full compressor speed (full)'' means the compressor speed
specified by Midea (Docket No. EERE-2019-BT-WAV-0009-0003) at which the
unit operates at full load testing conditions.
1.11 ``Intermediate compressor speed (intermediate)'' means the
compressor speed higher than the low compressor speed by one third of
the difference between low compressor speed and full compressor speed
with a tolerance of plus 5 percent (designs with non-discrete
compressor speed stages) or the next highest inverter frequency step
(designs with discrete compressor speed steps).
1.12 ``Low compressor speed (low)'' means the compressor speed
specified by Midea (Docket No. EERE-2019-BT-WAV-0009-0003) at which the
unit operates at low load test conditions, such that
Capacity4, the measured cooling capacity at test condition 4
in Table 1 of this appendix, is no less than 47 percent and no greater
than 57 percent of Capacity1, the measured cooling capacity
with the full compressor speed at test condition 1 in Table 1 of this
appendix.
1.13 ``Theoretical comparable single-speed room air conditioner''
means a theoretical single-speed room air conditioner with the same
cooling capacity and electrical power input as the variable-speed room
air conditioner unit under test, with no cycling losses considered, at
test condition 1 in Table 1 of this appendix.
Add to the end of Section 2.1 Cooling:
For the purposes of this waiver, test each unit following the
cooling mode test a total of four times: One test at each of the test
conditions listed in Table 1 of this appendix, consistent with section
3.1 of this appendix.
Revise Section 3.1, Cooling mode, to read as follows:
Cooling mode. Establish the test conditions described in sections 4
and 5 of ANSI/AHAM RAC-1 (incorporated by reference; see 10 CFR 430.3)
and in accordance with ANSI/ASHRAE 16 (incorporated by reference; see
10 CFR 430.3), with the following exceptions: Conduct the set of four
cooling mode tests with the test conditions in Table 1 of this
appendix. Set the compressor speed required for each test condition in
accordance with instructions Midea provided to DOE (Docket No. EERE-
2019-BT-WAV-0009-0003).
Table 1--Indoor and Outdoor Inlet Air Test Conditions--Variable-Speed Room Air Conditioners
----------------------------------------------------------------------------------------------------------------
Evaporator inlet (indoor) air, Condenser inlet (outdoor) air,
[deg]F [deg]F
Test condition ----------------------------------------------------------------- Compressor speed
Dry Bulb Wet Bulb Dry Bulb Wet Bulb
----------------------------------------------------------------------------------------------------------------
Test Condition 1............. 80 67 95 75 Full.
Test Condition 2............. 80 67 92 72.5 Full.
Test Condition 3............. 80 67 87 69 Intermediate.
Test Condition 4............. 80 67 82 65 Low.
----------------------------------------------------------------------------------------------------------------
Replace Section 5.1 to read as follows:
Calculate the condition-specific cooling capacity (expressed in
Btu/h), Capacitytc, for each of the four cooling mode rating
test conditions (tc), as required in section 6.1 of ANSI/AHAM RAC-1
(incorporated by reference; see 10 CFR 430.3) and in accordance with
ANSI/ASHRAE 16 (incorporated by reference; see 10 CFR 430.3).
Notwithstanding the requirements of 10 CFR 430.23(f), when reporting
cooling capacity pursuant to 10 CFR 429.15(b)(2) and calculating energy
consumption and costs pursuant to 10 CFR 430.23(f), use the cooling
capacity determined for test condition 1 in Table 1 of this appendix.
Replace Section 5.2 to read as follows:
Determine the condition-specific electrical power input (expressed
in watts), Ptc, for each of the four cooling mode rating
test conditions, as required by section 6.5 of ANSI/AHAM RAC-1
(incorporated by reference; see 10 CFR 430.3) and in accordance with
ANSI/ASHRAE 16 (incorporated by reference; see 10 CFR 430.3).
Notwithstanding the requirements of 10 CFR 430.23(f), when reporting
electrical power input pursuant to 10 CFR 429.15(b)(2) and calculating
energy consumption and costs pursuant to 10 CFR 430.23(f)(5), use the
electrical power input value measured for test condition 1 in Table 1
of this appendix. Notwithstanding the requirements of 10 CFR 430.23(f),
when calculating energy consumption and costs pursuant to 10 CFR
430.23(f)(3), use the weighted electrical power input, Pwt,
calculated in section 5.2.1 of this appendix, as the electrical power
input.
Insert a new Section 5.2.1:
5.2.1 Weighted electrical power input. Calculate the weighted
electrical power input in cooling mode, Pwt, expressed in
watts, as follows:
Pwt = [Sigma]tc Ptc x Wtc
Where:
Pwt = weighted electrical power input, in watts, in
cooling mode.
Ptc = electrical power input, in watts, in cooling mode
for each test condition in Table 1 of this appendix.
Wtc = weighting factors for each cooling mode test
condition: 0.05 for test condition 1, 0.16 for test condition 2,
0.31 for test condition 3, and 0.48 for test condition 4.
tc represents the cooling mode test condition: ``1'' for test
condition 1 (95 [deg]F condenser inlet dry-bulb temperature), ``2''
for test condition 2 (92 [deg]F), ``3'' for test condition 3 (87
[deg]F), and ``4'' for test condition 4 (82 [deg]F).
Add a new Section 5.4, following Section 5.3 Standby mode and off
mode annual energy consumption:
5.4 Variable-speed room air conditioner unit's performance
adjustment factor. Calculate the performance adjustment factor (Fp) as
follows:
5.4.1 Theoretical comparable single-speed room air conditioner.
Calculate the cooling capacity, expressed in British thermal units per
hour (Btu/h), and electrical power input, expressed in watts, for a
theoretical comparable single-speed room air conditioner at all cooling
mode test conditions.
Capacityss_tc = Capacity1 x (1 + (Mc x
(95-Ttc)))
Pss_tc = P1 x (1-(Mp x (95-
Ttc)))
Where:
Capacityss_tc = theoretical comparable single-speed room
air conditioner cooling capacity, in Btu/h, calculated for each of
the cooling mode test conditions in Table 1 of this appendix.
Capacity1 = variable-speed room air conditioner unit's
cooling capacity, in Btu/h, determined in section 5.1 of this
appendix for test condition 1 in Table 1 of this appendix.
Pss_tc = theoretical comparable single-speed room air
conditioner electrical power input, in watts, calculated for each of
the
[[Page 68164]]
cooling mode test conditions in Table 1 of this appendix.
P1 = variable-speed room air conditioner unit's
electrical power input, in watts, determined in section 5.2 of this
appendix for test condition 1 in Table 1 of this appendix.
Mc = adjustment factor to determine the increased
capacity at lower outdoor test conditions, 0.0099.
Mp = adjustment factor to determine the reduced
electrical power input at lower outdoor test conditions, 0.0076.
Ttc = condenser inlet dry-bulb temperature for each of
the test conditions in Table 1 of this appendix (in [deg]F).
95 is the condenser inlet dry-bulb temperature for test condition 1
in Table 1 of this appendix, 95 [deg]F.
tc as explained in section 5.2.1 of this appendix.
5.4.2 Variable-speed room air conditioner unit's annual energy
consumption for cooling mode at each cooling mode test condition.
Calculate the annual energy consumption for cooling mode under each
test condition, AECtc, expressed in kilowatt-hours per year
(kWh/year), as follows:
AECtc = 0.75 x Ptc
Where:
AECtc = variable-speed room air conditioner unit's annual
energy consumption, in kWh/year, in cooling mode for each test
condition in Table 1 of this appendix.
Ptc as defined in section 5.2.1 of this appendix.
tc as explained in section 5.2.1 of this appendix.
0.75 is 750 annual operating hours in cooling mode multiplied by a
0.001 kWh/Wh conversion factor from watt-hours to kilowatt-hours.
5.4.3 Theoretical comparable single-speed room air conditioner
annual energy consumption for cooling mode at each cooling mode test
condition. Calculate the annual energy consumption for a theoretical
comparable single-speed room air conditioner for cooling mode under
each test condition, AECss_tc, expressed in kWh/year.
AECss\tc = 0.75 x Pss\tc
Where:
AECss_tc = theoretical comparable single-speed room air
conditioner annual energy consumption, in kWh/year, in cooling mode
for each test condition in Table 1 of this appendix.
Pss_tc = theoretical comparable single-speed room air
conditioner electrical power input, in watts, in cooling mode for
each test condition in Table 1 of this appendix, determined in
section 5.4.1 of this appendix.
tc as explained in section 5.2.1 of this appendix.
0.75 as defined in section 5.4.2 of this appendix.
5.4.4 Variable-speed room air conditioner unit's combined energy
efficiency ratio at each cooling mode test condition. Calculate the
variable-speed room air conditioner unit's combined energy efficiency
ratio, CEERtc, for each test condition, expressed in Btu/Wh.
[GRAPHIC] [TIFF OMITTED] TN13DE19.006
Where:
CEERtc = variable-speed room air conditioner unit's
combined energy efficiency ratio, in Btu/Wh, for each test condition
in Table 1 of this appendix.
Capacitytc = variable-speed room air conditioner unit's
cooling capacity, in Btu/h, for each test condition in Table 1 of
this appendix, determined in section 5.1 of this appendix.
AECtc = variable-speed room air conditioner unit's annual
energy consumption, in kWh/yr, in cooling mode for each test
condition in Table 1 of this appendix, determined in section 5.4.2
of this appendix.
ETSO = standby mode and off mode annual energy
consumption for room air conditioners, in kWh/year, determined in
section 5.3 of this appendix.
tc as explained in section 5.2.1 of this appendix.
0.75 as defined in section 5.4.2 of this appendix.
5.4.5 Theoretical comparable single-speed room air conditioner
combined energy efficiency ratio at each cooling mode test condition.
Calculate the combined energy efficiency ratio for a theoretical
comparable single-speed room air conditioner, CEERss_tc, for
each test condition, expressed in Btu/Wh.
[GRAPHIC] [TIFF OMITTED] TN13DE19.007
Where:
CEERss_tc = theoretical comparable single-speed room air
conditioner combined energy efficiency ratio, in Btu/Wh, for each
test condition in Table 1 of this appendix.
Capacityss_tc = theoretical comparable single-speed room
air conditioner cooling capacity, in Btu/h, for each test condition
in Table 1 of this appendix, in Btu/h, determined in section 5.4.1
of this appendix.
AECss_tc = theoretical comparable single-speed room air
conditioner annual energy consumption for each test condition in
Table 1 of this appendix, in kWh/year, determined in section 5.4.3
of this appendix.
ETSO = standby mode and off mode annual energy
consumption for room air conditioners, in kWh/year, determined in
section 5.3 of this appendix.
tc as explained in section 5.2.1 of this appendix.
0.75 as defined in section 5.4.2 of this appendix.
5.4.6 Theoretical comparable single-speed room air conditioner
adjusted combined energy efficiency ratio for each cooling mode test
condition. Calculate the adjusted combined energy efficiency ratio for
a theoretical comparable single-speed room air conditioner,
CEERss_tc_adj, with cycling losses considered, expressed in
Btu/Wh.
CEERss\tc\adj = CEERss\tc x CLFtc
Where:
CEERss_tc_adj = theoretical comparable single-speed room
air conditioner adjusted combined energy efficiency ratio, in Btu/
Wh, for each test condition in Table 1 of this appendix.
CEERss_tc = theoretical comparable single-speed room air
conditioner adjusted combined energy efficiency ratio, in Btu/Wh,
for each test condition in Table 1 of this appendix, determined in
section 5.4.5 of this appendix.
CLFtc = cycling loss factor for each cooling mode test
condition: 1 for test condition 1, 0.971 for test condition 2, 0.923
for test condition 3, and 0.875 for test condition 4.
tc as explained in section 5.2.1 of this appendix.
5.4.7 Weighted combined energy efficiency ratio. Calculate the
weighted combined energy efficiency ratio for the variable-speed room
air conditioner unit, CEERwt, and theoretical comparable
single-speed room air conditioner, CEERss_wt, expressed in
Btu/Wh.
[[Page 68165]]
[GRAPHIC] [TIFF OMITTED] TN13DE19.008
Where:
CEERwt = variable-speed room air conditioner unit's
weighted combined energy efficiency ratio, in Btu/Wh.
CEERss_wt = theoretical comparable single-speed room air
conditioner weighted combined energy efficiency ratio, in Btu/Wh.
CEERtc = variable-speed room air conditioner unit's
combined energy efficiency ratio, in Btu/Wh, at each test condition
in Table 1 of this appendix, determined in section 5.4.4 of this
appendix.
CEERss_tc_adj = theoretical comparable single-speed room
air conditioner adjusted combined energy efficiency ratio, in Btu/
Wh, at each test condition in Table 1 of this appendix, determined
in section 5.4.6 of this appendix.
Wtc as defined in section 5.2.1 of this appendix.
tc as explained in section 5.2.1 of this appendix.
5.4.8 Variable-speed room air conditioner unit's performance adjustment
factor. Calculate the variable-speed room air conditioner unit's
performance adjustment factor, Fp.
[GRAPHIC] [TIFF OMITTED] TN13DE19.009
Where:
Fp = variable-speed room air conditioner unit's
performance adjustment factor.
CEERwt = variable-speed room air conditioner unit's
weighted combined energy efficiency ratio, in Btu/Wh, determined in
section 5.4.7 of this appendix.
CEERss_wt = theoretical comparable single-speed room air
conditioner weighted combined energy efficiency ratio, in Btu/Wh,
determined in section 5.4.7 of this appendix.
(3) Representations. Midea may not make representations about the
efficiency of any basic model listed in paragraph (1) for any purpose,
including, for example, compliance and marketing, unless the basic
model has been tested in accordance with the provisions set forth above
and such representations fairly disclose the results of such testing in
accordance with 10 CFR 429.15(a).
(4) This interim waiver shall remain in effect according to the
provisions of 10 CFR 430.27.
(5) DOE issues this interim waiver to Midea on the condition that
the statements, representations, and information provided by Midea are
valid. Any modifications to the controls or configurations of a basic
model subject to this waiver will render the waiver invalid with
respect to that basic model, and Midea will either be required to use
the current Federal test procedure or submit a new application for a
test procedure waiver. DOE may rescind or modify this waiver at any
time if it determines the factual basis underlying the petition for
waiver is incorrect, or the results from the alternate test procedure
are unrepresentative of a basic model's true energy consumption
characteristics. 10 CFR 430.27(k)(1). Likewise, Midea may request that
DOE rescind or modify the interim waiver if Midea discovers an error in
the information provided to DOE as part of its petition, determines
that the interim waiver is no longer needed, or for other appropriate
reasons. 10 CFR 430.27(k)(2).
(6) Midea remains obligated to fulfill the certification
requirements set forth at 10 CFR part 429.
DOE makes decisions on waivers and interim waivers for only those
basic models specifically listed in the petition, not future models
that may be manufactured by the petitioner. Midea may submit a new or
amended petition for waiver and request for grant of interim waiver, as
appropriate, for additional basic models of room air conditioners.
Alternatively, if appropriate, Midea may request that DOE extend the
scope of a waiver or an interim waiver to include additional basic
models employing the same technology as the basic model(s) listed in
the original petition consistent with 10 CFR 430.27(g).
V. Request for Comments
DOE is publishing Midea's petition for waiver in its entirety,
pursuant to 10 CFR 430.27(b)(1)(iv).\8\ The petition includes a
suggested alternate test procedure, as specified in the petition and
summarized in section III of this document, to determine the efficiency
of Midea's listed room air conditioners. DOE may consider including the
alternate procedure specified in the Interim Waiver Order, specified in
section IV of this document, in a subsequent Decision and Order.
---------------------------------------------------------------------------
\8\ The petition did not identify any of the information
contained therein as confidential business information.
---------------------------------------------------------------------------
DOE invites all interested parties to submit in writing January 13,
2020, comments and information on all aspects of the petition,
including the alternate test procedure. Pursuant to 10 CFR 430.27(d),
any person submitting written comments to DOE must also send a copy of
such comments to the petitioner. The contact information for the
petitioner is Phil Hombroek, Midea America Research Center, 2700
Chestnut Station Court, Louisville, KY 40299.
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 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
[[Page 68166]]
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 website 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).
Signed in Washington, DC, on November 18, 2019.
Alexander N. Fitzsimmons,
Acting Deputy Assistant Secretary for Energy Efficiency, Energy
Efficiency and Renewable Energy.
Midea America Research Center
2700 Chestnut Station Court
Louisville, KY 40299
3/25/2019
Via Email: [email protected]
Assistant Secretary of Energy Efficiency and Renewable Energy
U.S. Department of Energy
Building Technologies Program, Test Procedure Waiver
1000 Independence Avenue, SW
Mailstop EE-5B,
Washington, DC 20585
Daniel Simmons
Re: Petition for Waiver & Application for Interim Waiver Regarding Test
Procedure for Room Air Conditioners, Using 10 CFR part 430, subpart B,
Appendix F.
On behalf of GD Midea Air Conditioning Equipment Co. LTD. (Midea),
Midea America Research Center respectfully submits this Petition for
Waiver (``Waiver''), and Application for Interim Waiver (``Interim
Waiver'') regarding the Department of Energy (``DOE'') Test Procedures
for room air conditioners (RACs), pursuant to 10 CFR 430.27 Appendix F.
Midea requests that DOE grant Midea a Waiver and Interim Waiver
because the current test procedure does not accurately measure the
energy consumption of RACs with variable-speed compressors (``VSC'').
Midea requests expedited treatment of this Petition and Application.
Midea submits that this request is fully consistent with the approach
used in the previously granted Interim Waiver by LG Electronics Inc.
(``LG'') [Case Number 2018-003; EERE-2018-BT-WAV-006] dated June 29,
2018. Midea notes that this request is consistent with DOE's authority
to grant a Waiver. Midea further submits that it is within the DOE's
authority to grant an Interim Waiver to avoid economic hardship and
competitive disadvantage of Midea.
1. About Midea
Midea is the world's largest producer of major appliances, and the
world's No.1 brand of air-treatment products, air-coolers, kettles, and
rice cookers. Midea Group is a world leading technologies group in
consumer appliances, HVAC systems, robotics and industrial automation
systems, and smart supply chain (logistics). Midea offers diversified
products, comprised of consumer appliances (kitchen appliances,
refrigerators, laundry appliances, and various small home appliances),
HVAC (residential air-conditioning, commercial air-conditioning,
heating & ventilation), and robotics and industrial automation (Kuka
Group and Yaskawa joint venture). Midea is committed to improving lives
by adhering to the principle of ``Creating Value for Customers''. Midea
focuses on continuous technological innovation to improve products and
services to make life more comfortable and pleasant.
Midea's United States affiliate is Midea America Corp, with
headquarters at 5 Sylvan Way, Suite 100, Parsippany, NJ 07054 (tel.
973-539-5330) URL: www.us.midea.com/.
[[Page 68167]]
Its worldwide headquarters are located at Midea Group headquarter
building, No. 6 Midea Avenue, Beijiao, Shunde, Foshan, Guangdong,
528311 P.R. China; (tel. 011-86-757-2633-888); URL: www.midea.com/global. Midea America Research Center, at 2700 Chestnut Station Court,
Louisville, KY 40299, (tel. 502-709-6067). Its Room Air Conditioner
headquarters is located at GD Midea Air Conditioning Equipment Co. LTD,
No 6. Midea Avenue, Shunde Foshan, Guangdong 528311
2. Basic models subject to the Waiver request
This Petition for Waiver and Application for Interim Waiver is for
all of the following basic models of residential room air conditioners
manufactured by Midea. All models are in product class 3.
The following Midea Branded Basic Models are listed below:
In Product Class 3. Without reverse cycle, with louvered sides and
8,000 to 13,999 British Thermal Units (BTU)/hour (hr).
MAW08V1DWT (tentative 8,000 BTU/hr Capacity inverter)
MAW08V1QWT (tentative 8,000 BTU/hr Capacity inverter)
MAW10V1DWT (tentative 10,000 BTU/hr Capacity inverter)
MAW10V1QWT (tentative 10,000 BTU/hr Capacity inverter)
MAW12V1DWT (tentative 12,000 BTU/hr Capacity inverter)
MAW12V1QWT (tentative 12,000 BTU/hr Capacity inverter)
3. Requested Waiver
Midea requests the approval to test the energy consumption of the
above residential room air conditioners using the same methodology and
test procedure detailed in the granted interim waiver by LG Electronics
[Case Number 2018-003; EERE-2018-BT-WAV-006] dated June 29, 2018.
Strong demand for advanced energy efficient room air conditioners
have led, Midea to design room air conditioners with dramatic energy
savings, and the ability to maintain the desired temperature in the
home without cycling the compressor motor and fans on and off. In this
case, the compressor responds automatically to surrounding conditions
by adjusting the compressor rotational speed from low to high based
upon demand. This results in faster cooling and much more efficient
operation through optimizing the speed of the compressor to make
minimal adjustments as the room temperature rises and falls.
As LG mentions in their initial waiver, the current DOE test
procedure requires that room air conditioners be tested only at full-
load performance. As such, the test procedure does not take into
account the benefits of a VSC accounting for partial load conditions.
Midea requests that the alternate test procedure detailed in
section III of the granted interim waiver by LG Electronics [Case
Number 2018-003; EERE-2018-BT-WAV-006] dated June 29, 2018 be used to
determine the energy consumption of the specific models identified
above. The four cooling mode tests highlighted in Table 1 are the best
and most appropriate method to capture the actual energy usage of this
product.
4. Regulatory framework
DOE's regulations found in 10 CFR 430.27, provide that the
Assistant Secretary will grant a Petition to a manufacturer upon,
``determination that the basic model for which the waiver was requested
contains a design characteristic which either prevents testing of the
basic model according to the prescribed test procedures, or the
prescribed test procedures may evaluate the basic model in a manner so
unrepresentative of its true energy consumption characteristics as to
provide materially inaccurate comparative data.''
Midea believes that this Petition meets conditions stated above for
when DOE will grant a Petition. The current DOE test procedure, 10 CFR
430 Appendix F, requires that RACs be tested at full load conditions
and does not make any account for RACs offering variable-speed
operation based upon different air test conditions. As a result,
Midea's new VSC RACs cannot be tested to the most appropriate test
procedure taking full advantage of the benefits of VSC technology. If
Midea were to test its VSC RACs to the current test procedure the
results of energy would be wholly unrepresentative of the true energy
consumption characteristics of the new models.
5. Other manufacturers with similar design characteristics
To Midea's knowledge, the only other models with similar design
characteristic are those listed in the appendix of LG Electronics
granted Waiver [Case Number 2018-003; EERE-2018-BT-WAV-006] dated June
29, 2018.
6. Additional justification for Interim Waiver Application
a. Strong likelihood that the waiver will be granted
Midea has provided strong evidence that the waiver should be
granted. A petition for waiver is appropriate because the VSC RACs
should not be tested with the current test procedure that does not
accurately test VSC by testing only in the full load condition. These
compressors can vary the speed of the compressor based upon the
surrounding air conditions and will optimize the energy usage based on
these conditions. A RAC without a VSC cannot operate in this fashion.
In these RACs the compressor is either on at full capacity or off. The
test procedure granted in the waiver provided by LG Electronics on
dated June 29, 2018 will appropriately account for energy being used at
different test conditions.
Midea has also demonstrated that this approach is consistent with
past waiver approaches that other manufacturers have taken to receive
DOE waivers.
b. Economic hardship & competitive disadvantage.
In the absence of an Interim Waiver, Midea will lack certainty as
to whether it can launch these VSC RACs. Midea predicts strong consumer
demand for these VSC RACs, and the inability to market through denial
of an Interim Waiver will cause economic hardship and competitive
disadvantage to Midea.
There are exceptionally long lead times and significant expenses
associated with the design and manufacturer of RACs. Compliance with
federally mandated energy consumption standards is a critical design
factor for all of Midea's RACs. Any delay in obtaining clarity on this
issue will cause Midea to postpone key decisions regarding its
investments to build, launch and market these RACs. In the event that
this Waiver is not approved, Midea would not be able to move forward
with the launch of these models, which would be a multi-million-dollar
impact to the company and would require costly contingency plans and
put us at a competitive disadvantage to competitors that market VSC
RACs.
7. Certification of notice to other manufacturers
Midea is providing concurrent notice of this Petition for Waiver &
Application for Interim Waiver to the other known manufacturers of Room
Air Conditioners made or sold in the United States and to the
Association of Home Appliance Manufacturers. The cover
[[Page 68168]]
letters, including names and addresses of other known manufacturers and
the industry association, is included in Exhibit A.
8. Conclusion
Midea respectfully requests that the DOE grant the above Petition
for Waiver and Interim Waiver. By granting this Waiver, DOE will ensure
that consumers will have access to new, innovative and energy efficient
variable-speed compressors RACs and Midea will avoid economic hardship
and competitive disadvantage.
Thank you in advance for your consideration and prompt response.
Sincerely,
/s/
Phil Hombroek
Manager, Government Relations,
Midea America Research Center
Exhibit A
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Arctic Wind, 5401 Dansher Rd., Haier, ATTN: Earl F. Jones
Countryside, IL 60525. Appliance Park, Building 2
Room 131, Louisville, KY
40225.
Brothers Air Conditioning, ATTN: J. Kenmore, ATTN: Martin Olson,
McFadden, 1320 E Main St., Rock Hill, SC 3333 Beverly Rd., DC-201-B,
29730-5950. Hoffman Estates, IL 60179.
CLASSIC, 7101 NW 43rd Street, Miami, Kenmore Elite, ATTN: Martin
Florida 33166. Olson, 3333 Beverly Rd., DC-
201-B, Hoffman Estates, IL
60179.
Comfortaire Customer Service, P.O. Box Koldfront, 500 N Capital of
9219, Greenville, SC 29604. Texas Hwy., Building 5,
Austin, TX 78746.
Continental Electric c/o CEM Global, ATTN: Master Craft, 19000 Cleaton
Customer Service CE North America, LLC, Dr., Edmon, OK 73012.
6950 NW 77th Court, Miami, FL 33166.
Cool-Living, P.O. Box 893838, Mililani, HI NORPOLE, 940 N Central Ave.,
96789. Wood Dale, IL 60191-2802.
Costa Mechanical and Air, 613 SW Pine Perfect Aire, 5401 Dansher
Island Rd., Unit 17, Cape Coral, FL Rd., Countryside, IL 60525.
33991.
Crosley, 952 Copperfield Blvd. NE, RCA, 180 Marcus Blvd.,
Concord, NC 28025. Hauppauge, New York, New
York 11788.
Danby, ATTN: Greg Hall, 5070 Whitelaw Rd., Rowa, Shounan Industry Park
Guelph, ON N1G 6Z9 CANADA. Ningbo, China.
DELLA, 19395 E Walnut Dr. N, City of Sea Breeze, 3725 Commercial
Industry, CA 91748-1436. Way, Spring Hill, FL 34606.
Friedrich, ATTN: Stephen Pargeter, 10001 SOLEUSAIR, 20035 E Walnut
Reunion Pl., Ste., 500, San Antonio, TX Dr. N, Industry, CA 91789.
78216.
Electrolux Home Products, North America, TCL, 1255 Graphite Dr.,
P.O. Box 3900, Peoria, IL 61612. Corona, CA 92881.
Garrison Heating and Cooling Products, c/o Thermal Zone, c/o United
Interline Brands, 801 West Bay Street, Refrigeration, 11401
Jacksonville, FL 32204. Roosevelt Blvd.,
Philadelphia, PA 19154.
Global Industrial, 11 Harbor Park Dr., TOSOT, 5965 chemin de la
Port Washington, NY 11050. cote de liesse,
Montr[eacute]al, QC H4T
1C3.
GREE, ATTN: Huang Hui, West Jinji West Westpointe, 4849 Laurel
Road, Qian Shan GNG, Zhuhai, Guangdong, Ridge Dr., Riverside, CA
519070 CHINA. 92509.
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[FR Doc. 2019-26904 Filed 12-12-19; 8:45 am]
BILLING CODE 6450-01-P
