Energy Conservation Program: Energy Conservation Standards for Microwave Ovens

AGENCY:

Office of Energy Efficiency and Renewable Energy, Department of Energy.

ACTION:

Supplemental notice of proposed rulemaking and request for comment.

SUMMARY:

The Energy Policy and Conservation Act, as amended (“EPCA”), prescribes energy conservation standards for various consumer products and certain commercial and industrial equipment, including microwave ovens. EPCA also requires the U.S. Department of Energy (“DOE” or “the Department”) to periodically determine whether more-stringent standards would be technologically feasible and economically justified, and would result in significant energy savings. In this supplemental notice of proposed rulemaking (“SNOPR”), DOE proposes amended energy conservation standards for microwave ovens, and requests comment on these proposed standards and associated analyses and results.

DATES:

DOE will accept comments, data, and information regarding this SNOPR no later than October 24, 2022. See section VII, “Public Participation,” for details.

Comments regarding the likely competitive impact of the proposed standard should be sent to the Department of Justice contact listed in the ADDRESSES section on or before September 23, 2022.

ADDRESSES:

Interested persons are encouraged to submit comments using the Federal eRulemaking Portal at www.regulations.gov under docket number EERE-2017-BT-STD-0023. Follow the instructions for submitting comments. Alternatively, interested persons may submit comments, identified by docket number EERE-2017-BT-STD-0023, by any of the following methods:

(1) Email: MWO2017STD0023@ee.doe.gov. Include the docket number EERE-2017-BT-STD-0023 in the subject line of the message.

(2) Postal Mail: Appliance and Equipment Standards Program, U.S. Department of Energy, Building Technologies Office, Mailstop EE-5B, 1000 Independence Avenue SW, Washington, DC 20585-0121. Telephone: (202) 287-1445. If possible, please submit all items on a compact disc (“CD”), in which case it is not necessary to include printed copies.

(3) Hand Delivery/Courier: Appliance and Equipment Standards Program, U.S. Department of Energy, Building Technologies Office, 950 L'Enfant Plaza SW, 6th Floor, Washington, DC 20024. Telephone: (202) 287-1445. If possible, please submit all items on a CD, in which case it is not necessary to include printed copies.

No telefacsimiles (“faxes”) will be accepted. For detailed instructions on submitting comments and additional information on this process, see section VII of this document.

Docket: The docket for this activity, which includes Federal Register notices, comments, and other supporting documents/materials, is available for review at www.regulations.gov . All documents in the docket are listed in the www.regulations.gov index. However, not all documents listed in the index may be publicly available, such as information that is exempt from public disclosure.

The docket web page can be found at www.regulations.gov/docket?D=EERE-2017-BT-STD-0023 . The docket web page contains instructions on how to access all documents, including public comments, in the docket. See section VII of this document for information on how to submit comments through www.regulations.gov .

EPCA requires the Attorney General to provide DOE a written determination of whether the proposed standard is likely to lessen competition. The U.S. Department of Justice Antitrust Division invites input from market participants and other interested persons with views on the likely competitive impact of the proposed standard. Interested persons may contact the Division at energy.standards@usdoj.gov on or before the date specified in the DATES section. Please indicate in the “Subject” line of your email the title and Docket Number of this SNOPR.

FOR FURTHER INFORMATION CONTACT:

Dr. Stephanie Johnson, U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, Building Technologies Office, EE-5B, 1000 Independence Avenue SW, Washington, DC 20585-0121. Email: ApplianceStandardsQuestions@ee.doe.gov.

Ms. Celia Sher, U.S. Department of Energy, Office of the General Counsel, GC-33, 1000 Independence Avenue SW, Washington, DC 20585-0121. Telephone: (202) 287-6122. Email: Celia.Sher@hq.doe.gov.

For further information on how to submit a comment, review other public comments and the docket, or participate in the public meeting, contact the Appliance and Equipment Standards Program staff at (202) 287-1445 or by email: ApplianceStandardsQuestions@ee.doe.gov.

SUPPLEMENTARY INFORMATION:

Table of Contents

I. Synopsis of the Proposed Rule

A. Benefits and Costs to Consumers

B. Impact on Manufacturers

C. National Benefits and Costs

D. Conclusion

II. Introduction

A. Authority

B. Background

1. Current Standards

2. History of Standards Rulemaking for Microwave Ovens

III. General Discussion

A. Product Classes and Scope of Coverage

B. Test Procedure

C. Technological Feasibility

1. General

2. Maximum Technologically Feasible Levels

D. Energy Savings

1. Determination of Savings

2. Significance of Savings

E. Economic Justification

1. Specific Criteria

a. Economic Impact on Manufacturers and Consumers

b. Savings in Operating Costs Compared to Increase in Price (LCC and PBP)

c. Energy Savings

d. Lessening of Utility or Performance of Products

e. Impact of Any Lessening of Competition

f. Need for National Energy Conservation

g. Other Factors

2. Rebuttable Presumption

IV. Methodology and Discussion of Related Comments

A. Market and Technology Assessment

1. Scope of Coverage and Product Classes

2. Technology Options

B. Screening Analysis

1. Screened-Out Technologies

2. Remaining Technologies

C. Engineering Analysis

1. Efficiency Analysis

a. Baseline Efficiency

b. Higher Efficiency Levels

2. Cost Analysis

3. Cost-Efficiency Results

D. Markups Analysis

E. Energy Use Analysis

1. Product Cost

2. Installation Cost

3. Annual Energy Consumption

4. Energy Prices

5. Maintenance and Repair Costs

6. Product Lifetime

7. Discount Rates

8. Energy Efficiency Distribution in the No-New-Standards Case

9. Payback Period Analysis

G. Shipments Analysis

H. National Impact Analysis

1. Product Efficiency Trends

2. National Energy Savings

3. Net Present Value Analysis

I. Consumer Subgroup Analysis

J. Manufacturer Impact Analysis

1. Overview

2. Government Regulatory Impact Model and Key Inputs

a. Manufacturer Production Costs

b. Shipments Projections

c. Product and Capital Conversion Costs

d. Markup Scenarios

3. Discussion of MIA Comments

K. Emissions Analysis

1. Air Quality Regulations Incorporated in DOE's Analysis

L. Monetizing Emissions Impacts

1. Monetization of Greenhouse Gas Emissions

a. Social Cost of Carbon

b. Social Cost of Methane and Nitrous Oxide

2. Monetization of Other Emissions Impacts

M. Utility Impact Analysis

N. Employment Impact Analysis

V. Analytical Results and Conclusions

A. Trial Standard Levels

B. Economic Justification and Energy Savings

1. Economic Impacts on Individual Consumers

a. Life-Cycle Cost and Payback Period

b. Consumer Subgroup Analysis

c. Rebuttable Presumption Payback

2. Economic Impacts on Manufacturers

a. Industry Cash Flow Analysis Results

b. Direct Impacts on Employment

c. Impacts on Manufacturing Capacity

d. Impacts on Subgroups of Manufacturers

e. Cumulative Regulatory Burden

3. National Impact Analysis

a. Significance of Energy Savings

b. Net Present Value of Consumer Costs and Benefits

c. Indirect Impacts on Employment

4. Impact on Utility or Performance of Products

5. Impact of Any Lessening of Competition

6. Need of the Nation to Conserve Energy

7. Other Factors

8. Summary of Economic Impacts

C. Conclusion

1. Benefits and Burdens of TSLs Considered for Microwave Ovens Standards

2. Annualized Benefits and Costs of the Proposed Standards

VI. Procedural Issues and Regulatory Review

A. Review Under Executive Orders 12866 and 13563

B. Review Under the Regulatory Flexibility Act

C. Review Under the Paperwork Reduction Act

D. Review Under the National Environmental Policy Act of 1969

E. Review Under Executive Order 13132

F. Review Under Executive Order 12988

G. Review Under the Unfunded Mandates Reform Act of 1995

H. Review Under the Treasury and General Government Appropriations Act, 1999

I. Review Under Executive Order 12630

J. Review Under the Treasury and General Government Appropriations Act, 2001

K. Review Under Executive Order 13211

L. Information Quality

VII. Public Participation

A. Participation in the Webinar

B. Submission of Comments

C. Issues on Which DOE Seeks Comment

VIII. Approval of the Office of the Secretary

I. Synopsis of the Proposed Rule

Title III, Part B of EPCA, established the Energy Conservation Program for Consumer Products Other Than Automobiles. (42 U.S.C. 6291-6309) These products include kitchen ranges and ovens, which encompass microwave ovens, the subject of this rulemaking. (42 U.S.C. 6292(a)(10))

Pursuant to EPCA, any new or amended energy conservation standard must be designed to achieve the maximum improvement in energy efficiency that DOE determines is technologically feasible and economically justified. (42 U.S.C. 6295(o)(2)(A)) Furthermore, the new or amended standard must result in a significant conservation of energy. (42 U.S.C. 6295(o)(3)(B)) EPCA also provides that not later than 6 years after issuance of any final rule establishing or amending a standard, DOE must publish either a notice of determination that standards for the product do not need to be amended, or a notice of proposed rulemaking (“NOPR”) including new proposed energy conservation standards (proceeding to a final rule, as appropriate). (42 U.S.C. 6295(m))

In accordance with these and other statutory provisions discussed in this document, DOE proposes amended energy conservation standards for microwave ovens. The proposed standards, which are expressed in maximum allowable average standby power, as expressed in watts (“W”), are shown in Table I.1. These proposed standards, if adopted, would apply to all microwave ovens listed in Table I.1 manufactured in, or imported into, the United States starting on the date 3 years after the publication of the final rule for this rulemaking.

A. Benefits and Costs to Consumers

Table I.2 presents DOE's evaluation of the economic impacts of the proposed standards on consumers of microwave ovens, as measured by the average life-cycle cost (“LCC”) savings and the simple payback period (“PBP”). The average LCC savings are positive for all product classes, and the PBP is less than the average lifetime of microwave ovens, which is estimated to be 10.6 years ( see section IV.F.6 of this document).

DOE's analysis of the impacts of the proposed standards on consumers is described in section IV.F of this document.

B. Impact on Manufacturers

The industry net present value (“INPV”) is the sum of the discounted cash flows to the industry from the base year through the end of the analysis period (2022-2055). Using a real discount rate of 8.5 percent, DOE estimates that the INPV for manufacturers of microwave ovens in the case without amended standards is $1.40 billion in 2021$. Under the proposed standards, the change in INPV is estimated to range from −$34.3 million, which represents a change of −2.5 percent, to no change in INPV. To bring products into compliance with amended standards, it is estimated that the industry would incur total conversion costs of approximately $46.1 million.

DOE's analysis of the impacts of the proposed standards on manufacturers is described in section IV.J of this document. The analytic results of the manufacturer impact analysis (“MIA”) are presented in section V.B.2 of this document.

C. National Benefits and Costs

DOE's analyses indicate that the proposed energy conservation standards for microwave ovens would save a significant amount of energy. Relative to the case without amended standards, the lifetime energy savings for microwave ovens purchased in the 30-year period that begins in the anticipated year of compliance with the amended standards (2026-2055) amount to 0.06 quadrillion British thermal units (“Btu”), or quads. This represents a savings of 17.7 percent relative to the energy use of these products in the case without amended standards (referred to as the “no-new-standards case”).

The cumulative net present value (“NPV”) of total consumer benefits of the proposed standards for microwave ovens ranges from $0.15 billion (at a 7-percent discount rate) to $0.33 (at a 3-percent discount rate). This NPV expresses the estimated total value of future operating-cost savings minus the estimated increased product costs for microwave ovens purchased in 2026-2055.

In addition, the proposed standards for microwave ovens are projected to yield significant environmental benefits. DOE estimates that the proposed standards would result in cumulative emission reductions (over the same period as for energy savings) of 1.86 million metric tons (“Mt”) of carbon dioxide (“CO₂ ”), 0.84 thousand tons of sulfur dioxide (“SO₂ ”), 2.86 thousand tons of nitrogen oxides (“NO_X ”), 12.54 thousand tons of methane (“CH₄ ”), 0.02 thousand tons of nitrous oxide (“N₂ O”), and 0.005 tons of mercury (“Hg”).

DOE estimates the value of climate benefits from a reduction in greenhouse gases (“GHG”) using four different estimates of the social cost of CO₂ (“SC-CO₂ ”), the social cost of methane (“SC-CH₄ ”), and the social cost of nitrous oxide (“SC-N₂ O”). Together these represent the social cost of GHG (“SC-GHG”). DOE used interim SC-GHG values developed by an Interagency Working Group on the Social Cost of Greenhouse Gases (“IWG”). The derivation of these values is discussed in section IV.L of this document. For presentational purposes, the climate benefits associated with the average SC-GHG at a 3-percent discount rate are estimated to be $0.09 billion. DOE does not have a single central SC-GHG point estimate and it emphasizes the importance and value of considering the benefits calculated using all four SC-GHG estimates.

DOE estimated the monetary health benefits of SO₂ and NO_X emissions reductions also discussed in section IV.L of this document. DOE estimated the present value of the health benefits would be $0.07 billion using a 7-percent discount rate, and $0.16 billion using a 3-percent discount rate. DOE is currently only monetizing (for SO₂ and NO_X) PM_2.5 precursor health benefits and (for NO_X) ozone precursor health benefits, but will continue to assess the ability to monetize other effects such as health benefits from reductions in direct PM_2.5 emissions.

Table I.3 summarizes the economic benefits and costs expected to result from the proposed standards for microwave ovens. There are other important unquantified effects, including certain unquantified climate benefits, unquantified public health benefits from the reduction of toxic air pollutants and other emissions, unquantified energy security benefits, and distributional effects, among others.

The benefits and costs of the proposed standards can also be expressed in terms of annualized values. The monetary values for the total annualized net benefits are (1) the reduced consumer operating costs, minus (2) the increase in product purchase prices and installation costs, plus (3) the value of of climate and health benefits of emission reduction, all annualized.

The national operating savings are domestic private U.S. consumer monetary savings that occur as a result of purchasing the covered products and are measured for the lifetime of microwave ovens shipped in 2026-2055. The benefits associated with reduced emissions achieved as a result of the proposed standards are also calculated based on the lifetime of microwave ovens shipped in 2026-2055. Total benefits for both the 3-percent and 7-percent cases are presented using the average GHG social costs with 3-percent discount rate. Estimates of SC-GHG values are presented for all four discount rates in section V.B.8 of this document.

Table I.4 presents the total estimated monetized benefits and costs associated with the proposed standard, expressed in terms of annualized values. The results under the primary estimate are as follows.

Using a 7-percent discount rate for consumer benefits and costs and health benefits from reduced NO_X and SO₂ emissions, and the 3-percent discount rate case for climate benefits from reduced GHG emissions, the estimated cost of the standards proposed in this rule is $4.8 million per year in increased product costs, while the estimated annual benefits are $19.3 million in reduced product operating costs, $5.2 million in climate benefits, and $6.8 million in health benefits. In this case, the net benefit would amount to $26.5 million per year.

Using a 3-percent discount rate for all benefits and costs, the estimated cost of the proposed standards is $4.8 million per year in increased product costs, while the estimated annual benefits are $23.3 million in reduced operating costs, $5.2 million in climate benefits, and $9.1 million in health benefits. In this case, the net benefit would amount to $32.7 million per year.

DOE's analysis of the national impacts of the proposed standards is described in sections IV.H, IV.K, and IV.L of this document.

D. Conclusion

DOE has tentatively concluded that the proposed standards represent the maximum improvement in energy efficiency that is technologically feasible and economically justified, and would result in the significant conservation of energy. Specifically, with regards to technological feasibility, products achieving these standard levels are already commercially available for all product classes covered by this proposal. As for economic justification, DOE's analysis shows that the benefits of the proposed standard exceed the burdens of the proposed standards.

Using a 7-percent discount rate for consumer benefits and costs and health benefits from NO_X and SO₂ reduction, and a 3-percent discount rate case for climate benefits from reduced GHG emissions, the estimated cost of the proposed standards for microwave ovens is $4.8 million per year in increased microwave oven costs, while the estimated annual benefits are $19.3 million in reduced equipment operating costs, $5.2 million in climate benefits, and $6.8 million in health benefits. The net benefit amounts to $26.5 million per year.

The significance of energy savings offered by a new or amended energy conservation standard cannot be determined without knowledge of the specific circumstances surrounding a given rulemaking. For example, the United States rejoined the Paris Agreement on February 19, 2021. As part of that agreement, the United States has committed to reducing GHG emissions in order to limit the rise in mean global temperature. As such, energy savings that reduce GHG emissions have taken on greater importance. Additionally, some covered products and equipment have most of their energy consumption occur during periods of peak energy demand. The impacts of these products on the energy infrastructure can be more pronounced than products with relatively constant demand. In evaluating the significance of energy savings, DOE considers differences in primary energy and full-fuel cycle (“FFC”) effects for different covered products and equipment when determining whether energy savings are significant. Primary energy and FFC effects include the energy consumed in electricity production (depending on load shape), in distribution and transmission, and in extracting, processing, and transporting primary fuels ( i.e., coal, natural gas, petroleum fuels), and thus present a more complete picture of the impacts of energy conservation standards. Accordingly, DOE evaluates the significance of energy savings on a case-by-case basis.

As previously mentioned, the proposed standards would result in estimated national energy savings of 0.06 quads FFC, the equivalent of the electricity use of 1.6 million homes in one year. In addition, they are projected to reduce GHG emissions. Based on these findings, DOE has initially determined the energy savings from the proposed standard levels are “significant” within the meaning of 42 U.S.C. 6295(o)(3)(B). A more detailed discussion of the basis for these tentative conclusions is contained in the remainder of this document and the accompanying technical support document (“TSD”).

DOE also considered more-stringent energy efficiency levels as potential standards, and is still considering them in this proposed rulemaking. However, DOE has tentatively concluded that the potential benefits of the more-stringent energy efficiency levels would outweigh the projected burdens.

Based on consideration of the public comments DOE receives in response to this document and related information collected and analyzed during the course of this rulemaking effort, DOE may adopt energy efficiency levels presented in this document that are either higher or lower than the proposed standards, or some combination of level(s) that incorporate the proposed standards in part.

II. Introduction

The following section briefly discusses the statutory authority underlying this proposed rule, as well as some of the relevant historical background related to the establishment of standards for microwave ovens.

A. Authority

EPCA authorizes DOE to regulate the energy efficiency of a number of consumer products and certain industrial equipment. Title III, Part B of EPCA established the Energy Conservation Program for Consumer Products Other Than Automobiles. These products include kitchen ranges and ovens, which include microwave ovens, the subject of this document. (42 U.S.C. 6292(a)(10)) EPCA prescribed energy conservation standards for these products, and directs DOE to conduct future rulemakings to determine whether to amend these standards. (42 U.S.C. 6295(h)(2)(A)-(B)) EPCA further provides that, not later than 6 years after the issuance of any final rule establishing or amending a standard, DOE must publish either a notice of determination that standards for the product do not need to be amended, or a NOPR including new proposed energy conservation standards (proceeding to a final rule, as appropriate). (42 U.S.C. 6295(m)(1))

The energy conservation program under EPCA consists essentially of four parts: (1) testing, (2) labeling, (3) the establishment of Federal energy conservation standards, and (4) certification and enforcement procedures. Relevant provisions of EPCA specifically include definitions (42 U.S.C. 6291), test procedures (42 U.S.C. 6293), labeling provisions (42 U.S.C. 6294), energy conservation standards (42 U.S.C. 6295), and the authority to require information and reports from manufacturers (42 U.S.C. 6296).

Federal energy efficiency requirements for covered products established under EPCA generally supersede State laws and regulations concerning energy conservation testing, labeling, and standards. (42 U.S.C. 6297(a)-(c)) DOE may, however, grant waivers of Federal preemption for particular State laws or regulations, in accordance with the procedures and other provisions set forth under EPCA. ( See42 U.S.C. 6297(d))

Subject to certain criteria and conditions, DOE is required to develop test procedures to measure the energy efficiency, energy use, or estimated annual operating cost of each covered product. (42 U.S.C. 6295(o)(3)(A) and 42 U.S.C. 6295(r)) Manufacturers of covered products must use the prescribed DOE test procedure as the basis for certifying to DOE that their products comply with the applicable energy conservation standards adopted under EPCA and when making representations to the public regarding the energy use or efficiency of those products. (42 U.S.C. 6293(c) and 42 U.S.C. 6295(s)) Similarly, DOE must use these test procedures to determine whether the products comply with standards adopted pursuant to EPCA. (42 U.S.C. 6295(s)) The DOE test procedures for microwave ovens appear at title 10 of the Code of Federal Regulations (“CFR”) part 430.23(i) and 10 CFR part 430, subpart B, appendix I (“appendix I”).

DOE must follow specific statutory criteria for prescribing new or amended standards for covered products, including microwave ovens. Any new or amended standard for a covered product must be designed to achieve the maximum improvement in energy efficiency that the Secretary of Energy determines is technologically feasible and economically justified. (42 U.S.C. 6295(o)(2)(A) and 42 U.S.C. 6295(o)(3)(B)) Furthermore, DOE may not adopt any standard that would not result in the significant conservation of energy. (42 U.S.C. 6295(o)(3))

Moreover, DOE may not prescribe a standard if DOE determines by rule that the standard is not technologically feasible or economically justified. (42 U.S.C. 6295(o)(3)(B)) In deciding whether a proposed standard is economically justified, DOE must determine whether the benefits of the standard exceed its burdens. (42 U.S.C. 6295(o)(2)(B)(i)) DOE must make this determination after receiving comments on the proposed standard, and by considering, to the greatest extent practicable, the following seven statutory factors:

(1) The economic impact of the standard on manufacturers and consumers of the products subject to the standard;

(2) The savings in operating costs throughout the estimated average life of the covered products in the type (or class) compared to any increase in the price, initial charges, or maintenance expenses for the covered products that are likely to result from the standard;

(3) The total projected amount of energy (or as applicable, water) savings likely to result directly from the standard;

(4) Any lessening of the utility or the performance of the covered products likely to result from the standard;

(5) The impact of any lessening of competition, as determined in writing by the Attorney General, that is likely to result from the standard;

(6) The need for national energy and water conservation; and

(7) Other factors the Secretary of Energy (“Secretary”) considers relevant.

(42 U.S.C. 6295(o)(2)(B)(i)(I)-(VII))

Further, EPCA establishes a rebuttable presumption that a standard is economically justified if the Secretary finds that the additional cost to the consumer of purchasing a product complying with an energy conservation standard level will be less than three times the value of the energy savings during the first year that the consumer will receive as a result of the standard, as calculated under the applicable test procedure. (42 U.S.C. 6295(o)(2)(B)(iii))

EPCA also contains what is known as an “anti-backsliding” provision, which prevents the Secretary from prescribing any amended standard that either increases the maximum allowable energy use or decreases the minimum required energy efficiency of a covered product. (42 U.S.C. 6295(o)(1)) Also, the Secretary may not prescribe an amended or new standard if interested persons have established by a preponderance of the evidence that the standard is likely to result in the unavailability in the United States in any covered product type (or class) of performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as those generally available in the United States. (42 U.S.C. 6295(o)(4))

Additionally, EPCA specifies requirements when promulgating an energy conservation standard for a covered product that has two or more subcategories. DOE must specify a different standard level for a type or class of product that has the same function or intended use, if DOE determines that products within such group: (A) consume a different kind of energy from that consumed by other covered products within such type (or class); or (B) have a capacity or other performance-related feature which other products within such type (or class) do not have and such feature justifies a higher or lower standard. (42 U.S.C. 6295(q)(1)) In determining whether a performance-related feature justifies a different standard for a group of products, DOE must consider such factors as the utility to the consumer of the feature and other factors DOE deems appropriate. Id. Any rule prescribing such a standard must include an explanation of the basis on which such higher or lower level was established. (42 U.S.C. 6295(q)(2))

Finally, pursuant to the amendments contained in the Energy Independence and Security Act of 2007 (“EISA 2007”), Publish Law 110-140, any final rule for new or amended energy conservation standards promulgated after July 1, 2010, is required to address standby mode and off mode energy use. (42 U.S.C. 6295(gg)(3)) Specifically, when DOE adopts a standard for a covered product after that date, it must, if justified by the criteria for adoption of standards under EPCA (42 U.S.C. 6295(o)), incorporate standby mode and off mode energy use into a single standard, or, if that is not feasible, adopt a separate standard for such energy use for that product. (42 U.S.C. 6295(gg)(3)(A)-(B)) DOE's current test procedures for microwave ovens address standby mode and off mode energy use. In this rulemaking, DOE intends to incorporate such energy use into any amended energy conservation standards that it may adopt.

B. Background

1. Current Standards

In a final rule published on June 17, 2013 (“June 2013 Final Rule”), DOE prescribed the current energy conservation standards for microwave ovens manufactured on and after June 17, 2016. 78 FR 36316. These standards are set forth in DOE's regulations at 10 CFR 430.32(j)(3) and are repeated in Table II.1.

2. History of Standards Rulemaking for Microwave Ovens

EPCA prescribed an energy conservation standard for kitchen ranges and ovens, and directed DOE to conduct two cycles of rulemakings to determine whether to amend standards for these products. (42 U.S.C. 6295(h)(2)(A)-(B)) DOE completed the first of these rulemaking cycles by publishing a final rule on September 8, 1998, that codified the prescriptive design standard for gas cooking products established in EPCA, but found that no standards were justified for electric cooking products, including microwave ovens, at that time. 63 FR 48038, 48053-48054. DOE completed the second rulemaking cycle and published a final rule on April 8, 2009, in which it determined, among other things, that standards for microwave oven active mode energy use were not economically justified. 74 FR 16040 (“April 2009 Final Rule”).

Most recently, DOE published the June 2013 Final Rule, adopting energy conservation standards for microwave ovens. 78 FR 36316. In the June 2013 Final Rule, DOE maintained its prior determination that active mode standards are not warranted for microwave ovens and prescribed energy conservation standards that address the standby and off mode energy use of microwave ovens. 78 FR 36316, 36317.

In support of the present review of the microwave oven energy conservation standards, DOE published an early assessment request for information (“RFI”) on August 13, 2019 (“August 2019 RFI”), which identified various issues on which DOE sought comment to inform its determination of whether the standards need to be amended. 84 FR 39980.

DOE subsequently published a notice of proposed determination (“NOPD”) on August 12, 2021, in which DOE initially determined that current standards for microwave ovens do not need to be amended. 86 FR 44298. (“August 2021 NOPD”) In the August 2021 NOPD, DOE tentatively determined that there are technology options that would improve the efficiency of microwave ovens. 86 FR 44298, 44310. Based on the analysis conducted for the August 2021 NOPD, DOE estimated that amended standards for microwave oven standby power at the maximum technologically feasible (“max-tech”) level would result in 0.1 quads of energy saved over a 30-year period (representing an estimated 8 percent reduction in site energy use of microwave ovens). 86 FR 44298, 44310.

After the publication of the NOPD, DOE conducted investigative testing and manufacturer discussions, and updated the engineering analysis accordingly for this SNOPR. As a result, DOE revised the efficiency levels, manufacturer selling price (“MSP”)-efficiency relationships, and LCC and PBP analyses to evaluate the economic impacts of potential energy conservation standards for microwave ovens on individual consumers. Updates to the shipments and NIA analyses from the NOPD include the market shares of both product classes, historical shipments, shipment projections, the standard year, no-new-standards case efficiency distribution, and FFC conversion rates.

In evaluating the significance of the estimated energy savings for the August 2021 NOPD, DOE applied a two-part numeric threshold test that was then applicable under section 6(b) of appendix A to 10 CFR part 430 subpart C (Jan. 1, 2021 edition). Specifically, the threshold required that an energy conservation standard result in a 0.30 quads reduction in site energy use over a 30-year analysis period or a 10-percent reduction in site energy use over that same period. See85 FR 8626, 8670 (Feb. 14, 2020). In the August 2021 NOPD, DOE stated that the estimated site energy savings at the max-tech level was under the 0.3-quads/10-percent threshold and tentatively determined that amended energy conservation standards for microwave oven standby power would not result in significant conservation of energy. 86 FR 44298, 44310. DOE also noted that the two-part numeric threshold was under reconsideration. 86 FR 44298, 44302.

DOE held a public meeting on September 13, 2021, to solicit feedback from stakeholders concerning the August 2021 NOPD, and received comments in response from the interested parties listed in Table II.2.

A parenthetical reference at the end of a comment quotation or paraphrase provides the location of the item in the public record.

On December 13, 2021, DOE published in the Federal Register , a final rule that amended appendix A to 10 CFR part 430 subpart C (“appendix A”). 86 FR 70892 (the “December 2021 Final Rule”). The December 2021 Final Rule, in part, removed the numeric threshold in section 6(b) of appendix A for determining when the significant energy savings criterion is met, reverting to DOE's prior practice of making such determinations on a case-by-case basis. 86 FR 70892.

C. Deviation From Appendix A

In accordance with section 3(a) of appendix A, DOE notes that it is deviating from the provision in appendix A regarding the pre-NOPR stages for an energy conservation standards rulemaking. Section 6(a)(2) of appendix A states that if the Department determines it is appropriate to proceed with a rulemaking (after initiating the rulemaking process through an early assessment), the preliminary stages of a rulemaking to issue or amend an energy conservation standard that DOE will undertake will be a framework document and preliminary analysis, or an advance notice of proposed rulemaking (“ANOPR”).

DOE is deviating from this provision by proposing amended standards without first issuing a framework document and preliminary analysis or an ANOPR. As discussed previously, DOE proposed in the August 2021 NOPD that standards for microwave ovens did not need to be amended. 86 FR 44298. The August 2021 NOPD contained analyses that DOE generally conducts as part of a preliminary analysis, including a market and technology assessment, screening analysis, engineering analysis, and national impacts analysis (“NIA”). DOE provided a 60-day comment period for the August 2021 NOPD. As such, DOE believes it is appropriate to proceed with this SNOPR without once again conducting the pre-NOPR stages of a rulemaking.

Section 6(f)(2) of appendix A provides that the length of the public comment period for a notice of proposed rulemaking to amend an energy conservation standard will be at least 75 days. As stated previously, DOE requested comment on the analytical approach taken in the August 2021 NOPD and provided stakeholders with a 60-day comment period. Given that this supplemental notice relies largely on the same analytical approach taken in that NOPD, DOE believes a 60-day comment period is appropriate and will provide interested parties with a meaningful opportunity to comment on the proposed rule.

III. General Discussion

DOE developed this proposal after considering oral and written comments, data, and information submitted by stakeholders. The following discussion addresses issues raised by these commenters.

A. Product Classes and Scope of Coverage

When evaluating and establishing energy conservation standards, DOE divides covered products into product classes by the type of energy used or by capacity or other performance-related features that justify differing standards. In making a determination whether a performance-related feature justifies a different standard, DOE must consider such factors as the utility of the feature to the consumer and other factors DOE determines are appropriate. (42 U.S.C. 6295(q)) The microwave oven product classes for this SNOPR are discussed in further detail in section IV.A.1 of this document. This proposal covers microwave ovens defined as household cooking appliances consisting of a compartment designed to cook or heat food by means of microwave energy, including microwave ovens with or without thermal elements designed for surface browning of food and convection microwave ovens. This includes any microwave oven components of a combined cooking product. 10 CFR 430.2. The scope of coverage is discussed in further detail in section IV.A.1 of this document.

B. Test Procedure

EPCA sets forth generally applicable criteria and procedures for DOE's adoption and amendment of test procedures. (42 U.S.C. 6293) Manufacturers of covered products must use these test procedures to certify to DOE that their product complies with energy conservation standards and to quantify the efficiency of their product. DOE's current energy conservation standards for microwave ovens are expressed in terms of average watts of standby mode power consumption. See10 CFR 430.23(j)(3). DOE originally established test procedures for microwave ovens in an October 3, 1997 final rule that addressed active mode energy use only. 62 FR 51976. Those procedures were based on the International Electrotechnical Commission (“IEC”) Standard 705- Second Edition 1998 and Amendment 2-1993, “Methods for Measuring the Performance of Microwave Ovens for Households and Similar Purposes” (“IEC Standard 705”). On July 22, 2010, DOE published in the Federal Register a final rule for the microwave oven test procedures (“July 2010 Repeal Final Rule”), in which it repealed the regulatory test procedures for measuring the cooking efficiency of microwave ovens. 75 FR 42579. In the July 2010 Repeal Final Rule, DOE determined that the existing microwave oven test procedure did not produce representative and repeatable test results. 75 FR 42579, 42580. DOE stated at that time that it was unaware of any test procedures that had been developed that address these concerns. 75 FR 42579, 42581.

In response to the August 2021 NOPD, AHAM stated that active mode standards are not justified because the current test procedure does not measure active mode power and an active mode measurement would be unduly burdensome. (AHAM, No. 14 at p. 3) DOE is not currently proposing active mode standards because it has not identified a method for capturing active mode energy performance in a repeatable and representative manner.

On March 9, 2011, DOE published an interim final rule establishing test procedures for microwave ovens regarding the measurement of the average standby mode and average off mode power consumption that incorporated by reference specific clauses from the IEC Standard 62301, “Household electrical appliances—Measurement of standby power,” First Edition 2005-06. 76 FR 12825. On January 18, 2013, DOE published a final rule amending the microwave oven test procedure to incorporate by reference certain provisions of the revised IEC Standard 62301 Edition 2.0 2011-01, along with clarifying language for the measurement of standby mode and off mode energy use. 78 FR 4015.

On December 16, 2016, DOE published a final rule (“December 2016 TP Final Rule”) amending the cooking products test procedure to, in part, incorporate methods for calculating the annual standby mode and off mode energy consumption of the microwave oven component of a combined cooking product by allocating a portion of the combined low-power mode energy consumption measured for the combined cooking product to the microwave oven component using the estimated annual cooking hours for the given components comprising the combined cooking product. 81 FR 91418, 91438-91439. That final rule, which resulted in the most recent version of the microwave oven test procedure, was codified in the CFR at appendix I.

On January 18, 2018, DOE published an RFI (“January 2018 RFI”) initiating a data collection process to assist in its evaluation of the test procedure for microwave ovens. 83 FR 2366. On November 14, 2019, DOE published a NOPR (“November 2019 TP NOPR”) proposing amendments to the existing test procedure with requirements for both the clock display and network functionality when testing standby mode and off mode power consumption and certain technical corrections. 84 FR 61836. DOE subsequently published an SNOPR on August 3, 2021 (“the August 2021 TP SNOPR”) providing additional clarification on the requirements for testing microwave ovens with network functionality. 86 FR 41759. On March 30, 2022, DOE published a final rule amending the microwave oven test procedure as proposed in the August 2021 TP SNOPR. 87 FR 18261.

C. Technological Feasibility

1. General

In each energy conservation standards rulemaking, DOE conducts a screening analysis based on information gathered on all current technology options and prototype designs that could improve the efficiency of the products or product that are the subject of the rulemaking. As the first step in such an analysis, DOE develops a list of technology options for consideration in consultation with manufacturers, design engineers, and other interested parties. DOE then determines which of those means for improving efficiency are technologically feasible. DOE considers technologies incorporated in commercially-available products or in working prototypes to be technologically feasible. Sections 6(b)(3)(i) and 7(b)(1) of appendix A to 10 CFR part 430 subpart C.

After DOE has determined that particular technology options are technologically feasible, it further evaluates each technology option in light of the following additional screening criteria: (1) practicability to manufacture, install, and service; (2) adverse impacts on product utility or availability; (3) adverse impacts on health or safety, and (4) unique-pathway proprietary technologies. 10 CFR part 430, subpart C, appendix A, sections 6(c)(3)(ii)-(v) and 7(b)(2)-(5). Section IV.B of this document discusses the results of the screening analysis for microwave ovens, particularly the designs DOE considered, those it screened out, and those that are the basis for the standards considered in this rulemaking. For further details on the screening analysis for this rulemaking, see chapter 4 of the SNOPR TSD.

2. Maximum Technologically Feasible Levels

When DOE proposes to adopt an amended standard for a type or class of covered product, it must determine the maximum improvement in energy efficiency or maximum reduction in energy use that is technologically feasible for such product. (42 U.S.C. 6295(p)(1)) Accordingly, in the engineering analysis, DOE determined the maximum technologically feasible (max-tech) improvements in energy efficiency for microwave ovens, using the design parameters for the most efficient products available on the market or in working prototypes. The max-tech levels that DOE determined for this rulemaking are described in section IV.C of this proposed rule and in chapter 5 of the SNOPR TSD.

D. Energy Savings

1. Determination of Savings

For each trial standard level (“TSL”), DOE projected energy savings from application of the TSL to microwave ovens purchased in the 30-year period that begins in the year of compliance with the proposed standards (2026-2055). The savings are measured over the entire lifetime of microwave ovens purchased in the 30-year period. DOE quantified the energy savings attributable to each TSL as the difference in energy consumption between each standards case and the no-new-standards case. The no-new-standards case represents a projection of energy consumption that reflects how the market for a product would likely evolve in the absence of amended energy conservation standards.

DOE used its NIA spreadsheet model to estimate NES from potential amended or new standards for microwave ovens. The NIA spreadsheet model (described in section IV.H of this document) calculates energy savings in terms of site energy, which is the energy directly consumed by products at the locations where they are used. For electricity, DOE reports national energy savings in terms of primary energy savings, which is the savings in the energy that is used to generate and transmit the site electricity. DOE also calculates NES in terms of FFC energy savings. The FFC metric includes the energy consumed in extracting, processing, and transporting primary fuels ( i.e., coal, natural gas, petroleum fuels), and thus presents a more complete picture of the impacts of energy conservation standards. DOE's approach is based on the calculation of an FFC multiplier for each of the energy types used by covered products or product. For more information on FFC energy savings, see section IV.H.2 of this document.

2. Significance of Savings

To adopt any new or amended standards for a covered product, DOE must determine that such action would result in significant energy savings. (42 U.S.C. 6295(o)(3)(B))

In response to the August 2021 NOPD, IPI suggested that DOE re-consider its tentative determination regarding the significance of energy conservation in light of the amendments to appendix A that DOE had recently proposed in a separate rulemaking, which included changes to the definition of “significant energy savings.” (IPI, No. 15 at p. 1) CA IOUs requested DOE consider the proposed appendix A changes to the quantitative significant savings of energy threshold, economic justification, and technological feasibility of the proposed standard levels. (CA IOUs, No. 17 at p. 2)

AHAM stated that amended standards are not justified for microwave ovens regardless of whether DOE continues to use the then-current appendix A's definition of “significant conservation of energy” or relies on the previous definition of “merely trivial.” (AHAM, No. 14 at p. 2)

As discussed, the numeric threshold for determining the significance of energy savings was subsequently eliminated in the December 2021 Final Rule and DOE has reverted to its longstanding practice of evaluating the significance of energy savings on a case-by-case basis. 86 FR 70892.

The significance of energy savings offered by a new or amended energy conservation standard cannot be determined without knowledge of the specific circumstances surrounding a given rulemaking. For example, the United States recently rejoined the Paris Agreement and will exert leadership in confronting the climate crisis. These actions have placed an increased emphasis on the importance of energy savings that reduce greenhouse gas emissions and help mitigate the climate crisis. Additionally, some covered products and equipment have most of their energy consumption occur during periods of peak energy demand. The impacts of these products on the energy infrastructure can be more pronounced than products with relatively constant demand. Lastly, in evaluating the significance of energy savings, DOE considers differences in primary energy and FFC effects for different covered products and equipment when determining whether energy savings are significant. Primary energy and FFC effects include the energy consumed in electricity production (depending on load shape), in distribution and transmission, and in extracting, processing, and transporting primary fuels ( i.e., coal, natural gas, petroleum fuels), and thus present a more complete picture of the impacts of energy conservation standards.

Accordingly, DOE evaluates the significance of energy savings on a case-by-case basis. As stated, the proposed standards would result in estimated national energy savings of 0.04 quads, the equivalent of the electricity use of 1 million homes in one year. DOE has initially determined the energy savings for the TSL proposed in this rulemaking are “significant” within the meaning of 42 U.S.C. 6295(o)(3)(B).

E. Economic Justification

1. Specific Criteria

As noted previously, EPCA provides seven factors to be evaluated in determining whether a potential energy conservation standard is economically justified. (42 U.S.C. 6295(o)(2)(B)(i)(I)-(VII)) The following sections discuss how DOE has addressed each of those seven factors in this SNOPR.

a. Economic Impact on Manufacturers and Consumers

In determining the impacts of a potential amended standard on manufacturers, DOE conducts an MIA, as discussed in section IV.J of this document. DOE first uses an annual cash-flow approach to determine the quantitative impacts. This step includes both a short-term assessment—based on the cost and capital requirements during the period between when a regulation is issued and when entities must comply with the regulation—and a long-term assessment over a 30-year period. The industry-wide impacts analyzed include (1) INPV, which values the industry on the basis of expected future cash flows, (2) cash flows by year, (3) changes in revenue and income, and (4) other measures of impact, as appropriate. Second, DOE analyzes and reports the impacts on different types of manufacturers, including impacts on small manufacturers. Third, DOE considers the impact of standards on domestic manufacturer employment and manufacturing capacity, as well as the potential for standards to result in plant closures and loss of capital investment. Finally, DOE takes into account cumulative impacts of various DOE regulations and other regulatory requirements on manufacturers.

For individual consumers, measures of economic impact include the changes in LCC and PBP associated with new or amended standards. These measures are discussed further in the following section. For consumers in the aggregate, DOE also calculates the national net present value of the consumer costs and benefits expected to result from particular standards. DOE also evaluates the impacts of potential standards on identifiable subgroups of consumers that may be affected disproportionately by a standard.

b. Savings in Operating Costs Compared To Increase in Price (LCC and PBP)

EPCA requires DOE to consider the savings in operating costs throughout the estimated average life of the covered product in the type (or class) compared to any increase in the price of, or in the initial charges for, or maintenance expenses of, the covered product that are likely to result from a standard. (42 U.S.C. 6295(o)(2)(B)(i)(II)) DOE conducts this comparison in its LCC and PBP analysis.

The LCC is the sum of the purchase price of a product (including its installation) and the operating expense (including energy, maintenance, and repair expenditures) discounted over the lifetime of the product. The LCC analysis requires a variety of inputs, such as product prices, product energy consumption, energy prices, maintenance and repair costs, product lifetime, and discount rates appropriate for consumers. To account for uncertainty and variability in specific inputs, such as product lifetime and discount rate, DOE uses a distribution of values, with probabilities attached to each value.

The PBP is the estimated amount of time (in years) it takes consumers to recover the increased purchase cost (including installation) of a more-efficient product through lower operating costs. DOE calculates the PBP by dividing the change in purchase cost due to a more-stringent standard by the change in annual operating cost for the year that standards are assumed to take effect.

For its LCC and PBP analysis, DOE assumes that consumers will purchase the covered products in the first year of compliance with new or amended standards. The LCC savings for the considered efficiency levels are calculated relative to the case that reflects projected market trends in the absence of new or amended standards. DOE's LCC and PBP analysis is discussed in further detail in section IV.F of this document.

c. Energy Savings

Although significant conservation of energy is a separate statutory requirement for adopting an energy conservation standard, EPCA requires DOE, in determining the economic justification of a standard, to consider the total projected energy savings that are expected to result directly from the standard. (42 U.S.C. 6295(o)(2)(B)(i)(III)) As discussed in section III.D of this document, DOE uses the NIA spreadsheet models to project national energy savings.

d. Lessening of Utility or Performance of Products

In establishing product classes and in evaluating design options and the impact of potential standard levels, DOE evaluates potential standards that would not lessen the utility or performance of the considered products. (42 U.S.C. 6295(o)(2)(B)(i)(IV)) Based on data available to DOE, the standards proposed in this document would not reduce the utility or performance of the products under consideration in this rulemaking.

e. Impact of Any Lessening of Competition

EPCA directs DOE to consider the impact of any lessening of competition, as determined in writing by the Attorney General, that is likely to result from a proposed standard. (42 U.S.C. 6295(o)(2)(B)(i)(V)) It also directs the Attorney General to determine the impact, if any, of any lessening of competition likely to result from a proposed standard and to transmit such determination to the Secretary within 60 days of the publication of a proposed rule, together with an analysis of the nature and extent of the impact. (42 U.S.C. 6295(o)(2)(B)(ii)) DOE will transmit a copy of this proposed rule to the Attorney General with a request that the Department of Justice (“DOJ”) provide its determination on this issue. DOE will publish and respond to the Attorney General's determination in the final rule. DOE invites comment from the public regarding the competitive impacts that are likely to result from this proposed rule. In addition, stakeholders may also provide comments separately to DOJ regarding these potential impacts. See the ADDRESSES section for information to send comments to DOJ.

f. Need for National Energy Conservation

DOE also considers the need for national energy and water conservation in determining whether a new or amended standard is economically justified. (42 U.S.C. 6295(o)(2)(B)(i)(VI)) The energy savings from the proposed standards are likely to provide improvements to the security and reliability of the Nation's energy system. Reductions in the demand for electricity also may result in reduced costs for maintaining the reliability of the Nation's electricity system. DOE conducts a utility impact analysis to estimate how standards may affect the Nation's needed power generation capacity, as discussed in section IV.M of this document.

DOE maintains that environmental and public health benefits associated with the more efficient use of energy are important to take into account when considering the need for national energy conservation. The proposed standards are likely to result in environmental benefits in the form of reduced emissions of air pollutants and GHGs associated with energy production and use. As part of the analysis of the need for national energy and water conservation, DOE conducts an emissions analysis to estimate how potential standards may affect these emissions, as discussed in section IV.K of this document; the estimated emissions impacts are reported in section V.B.6 of this document. DOE also estimates the economic value of emissions reductions resulting from the considered TSLs, as discussed in section IV.L of this document.

g. Other Factors

In determining whether an energy conservation standard is economically justified, DOE may consider other factors that the Secretary deems to be relevant. (42 U.S.C. 6295(o)(2)(B)(i)(VII)) To the extent DOE identifies any relevant information regarding economic justification that does not fit into the other categories described previously, DOE could consider such information under “other factors.”

2. Rebuttable Presumption

As set forth in 42 U.S.C. 6295(o)(2)(B)(iii), EPCA creates a rebuttable presumption that an energy conservation standard is economically justified if the additional cost to the consumer of a product that meets the standard is less than three times the value of the first year's energy savings resulting from the standard, as calculated under the applicable DOE test procedure. DOE's LCC and PBP analyses generate values used to calculate the effects that proposed energy conservation standards would have on the payback period for consumers. These analyses include, but are not limited to, the 3-year payback period contemplated under the rebuttable-presumption test. In addition, DOE routinely conducts an economic analysis that considers the full range of impacts to consumers, manufacturers, the Nation, and the environment, as required under 42 U.S.C. 6295(o)(2)(B)(i). The results of this analysis serve as the basis for DOE's evaluation of the economic justification for a potential standard level (thereby supporting or rebutting the results of any preliminary determination of economic justification). The rebuttable presumption payback calculation is discussed in section IV.F.9 of this proposed rule.

IV. Methodology and Discussion of Related Comments

This section addresses the analyses DOE has performed for this rulemaking regarding microwave ovens. Separate subsections address each component of DOE's analyses.

DOE used several analytical tools to estimate the impact of the standards proposed in this document. The first tool is a spreadsheet that calculates the LCC savings and PBP of potential amended or new energy conservation standards. The national impacts analysis uses a second spreadsheet set that provides shipments projections. Additionally, this second spreadsheet calculates national energy savings and net present value of total consumer costs and savings expected to result from potential energy conservation standards. DOE uses the third spreadsheet tool, the Government Regulatory Impact Model (“GRIM”), to assess manufacturer impacts of potential standards. These three spreadsheet tools are available on the DOE website for this rulemaking: www1.eere.energy.gov/buildings/appliance_standards/product.aspx/productid/48. Additionally, DOE used output from the latest version of the Energy Information Administration's (“EIA's”) Annual Energy Outlook ( “AEO”), a widely known energy projection for the United States, for the emissions and utility impact analyses.

Stakeholders asked that DOE publish the analysis used in the NOPD. (ASAP, NRDC, CA IOUs, No. 14 at p. 1; CA IOUs, No. 17 at p. 1)

DOE has provided spreadsheet models in the docket to support the SNOPR analyses. The LCC spreadsheet model used to support the SNOPR analysis had not been developed for the NOPD analyses. The shipments and NIA spreadsheet models used in the NOPD analyses now have updated values. Primary and FFC energy savings in the NOPD Table V.2 Cumulative National Energy Savings for Microwave Ovens can be found in the NIA's Input and Summary worksheet.

A. Market and Technology Assessment

DOE develops information in the market and technology assessment that provides an overall picture of the market for the products concerned, including the purpose of the products, the industry structure, manufacturers, market characteristics, and technologies used in the products. This activity includes both quantitative and qualitative assessments, based primarily on publicly-available information. The subjects addressed in the market and technology assessment for this rulemaking include (1) a determination of the scope of the rulemaking and product classes, (2) manufacturers and industry structure, (3) existing efficiency programs, (4) shipments information, (5) market and industry trends, and (6) technologies or design options that could improve the energy efficiency of microwave ovens. The key findings of DOE's market assessment are summarized in the following sections. See chapter 3 of the SNOPR TSD for further discussion of the market and technology assessment.

1. Scope of Coverage and Product Classes

In this analysis, DOE relies on the definition of microwave ovens in 10 CFR 430.2, which defines “microwave oven” as a category of cooking products which is a household cooking appliance consisting of a compartment designed to cook or heat food by means of microwave energy, including microwave ovens with or without thermal elements designed for surface browning of food and convection microwave ovens. This includes any microwave oven(s) component of a combined cooking product. Any product meeting the definition of microwave oven is included in DOE's scope of coverage.

For this proposal, DOE considered the two product classes of microwave ovens prescribed in the current energy conservation standards: (1) Microwave-Only Ovens and Countertop Convection Microwave Ovens, and (2) Built-In and Over-the-Range Convection Microwave Ovens.

For these two classes of microwave ovens, DOE's current test procedure measures the energy consumption in standby mode and off mode only. Consequently, DOE's current energy conservation standards for microwave ovens are also expressed in terms of standby mode and off mode power. There are currently no active mode energy conservation standards nor a prescribed test procedure for measuring the active mode energy use or efficiency ( e.g., cooking efficiency) of microwave ovens.

2. Technology Options

In the preliminary market analysis and technology assessment, DOE identified four technology options that would be expected to improve the efficiency of microwave ovens, as measured by the DOE test procedure:

CA IOUs stated that microwave ovens are available on the market that do not appear to use automatic power-down functionality, but achieve lower standby power than the DOE-stated max-tech standby power levels. They requested that DOE review and revise the max-tech levels based on the knowledge of market-ready models. (CA IOUs, No. 17 at p. 4) ASAP stated that there are additional potential efficiency levels between the level associated with automatic power down and the current baseline standards (1.0 W for microwave-only ovens and countertop convection microwave ovens and 2.2 W for built-in and over-the-range convection microwave ovens). ASAP further stated DOE's Compliance Certification (“CCMS”) database lists microwave oven models with standby power levels significantly below 0.84 W without automatic power-down. (ASAP, ACEEE, CFA, NRDC, NEEA, No. 16 at p. 1) For the SNOPR, DOE purchased and tested 33 microwave ovens representing the two product classes, and the results confirm that microwave oven models currently on the market are able to achieve standby power consumption values between that of automatic power-down and the proposed levels. Further, DOE's testing suggested that microwave ovens are frequently rated conservatively, such that their certified standby power level is higher than actual values obtained when tested in accordance with appendix I. Therefore, DOE was unable to accurately assess the relationship between specific standby power levels and utilized technology options based on data from the CCMS database. Instead, DOE used the measured standby power levels of microwave oven models in its test sample as a proxy to determine the representative distribution of standby power levels among microwave ovens on the market, as shown in Table IV.2. Details of the methodology and results from DOE's investigative testing are included in chapter 3 and chapter 5 of the SNOPR TSD.

DOE subsequently tore down all 33 microwave ovens but was unable to isolate a unique set of technology options associated with each standby power level. As such, DOE tentatively concludes that models demonstrating lower standby power consumption than the current energy conservation standards are not implementing specific technology options, but rather incorporate a comprehensive system-level control board redesign that prioritizes standby power performance from the ground up. Examples of possible redesign strategies include the use of modern microcontrollers that demonstrate significantly lower quiescent current comsumption and firmware that emphasizes the shutting down of all subassemblies that are not in use while idle. DOE tentatively estimates that while these improvements would not contribute to the incremental manufacturer production cost (“MPC”) of a control board, the redesign would result in significant conversion costs for manufacturers as they attempt to bring their microwave oven models into compliance with any proposed standards. See section IV.J.2.a of this document.

DOE requests feedback on its tentative conclusion that reducing the standby power consumption of microwave ovens would require full redesigns of control boards, and that while such redesigns would not result in increased MPCs, manufacturers would incur significant one-time conversation costs.

B. Screening Analysis

DOE uses the following five screening criteria to determine which technology options are suitable for further consideration in an energy conservation standards rulemaking:

(1) Technological feasibility. Technologies that are not incorporated in commercial products or in working prototypes will not be considered further.

(2) Practicability to manufacture, install, and service. If it is determined that mass production and reliable installation and servicing of a technology in commercial products could not be achieved on the scale necessary to serve the relevant market at the time of the projected compliance date of the standard, then that technology will not be considered further.

(3) Impacts on product utility or product availability. If it is determined that a technology would have a significant adverse impact on the utility of the product for significant subgroups of consumers or would result in the unavailability of any covered product type with performance characteristics (including reliability), features, sizes, capacities, and volumes that are substantially the same as products generally available in the United States at the time, it will not be considered further.

(4) Adverse impacts on health or safety. If it is determined that a technology would have significant adverse impacts on health or safety, it will not be considered further.

(5) Unique-Pathway Proprietary Technologies. If a design option utilizes proprietary technology that represents a unique pathway to achieving a given efficiency level, that technology will not be considered further due to the potential for monopolistic concerns.

10 CFR part 430, subpart C, appendix A, sections 6(b)(3) and 7(b).

In summary, if DOE determines that a technology, or a combination of technologies, fails to meet one or more of the listed five criteria, it will be excluded from further consideration in the engineering analysis. The reasons for eliminating any technology are discussed in the following sections.

The subsequent sections include comments from interested parties pertinent to the screening criteria, DOE's evaluation of each technology option against the screening analysis criteria, and whether DOE determined that a technology option should be excluded (“screened out”) based on the screening criteria.

In response to the August 2021 NOPD, AHAM stated that there are no available technology options to improve standby power energy consumption without impacting functionality for consumers. (AHAM, No. 14 at p. 2)

As discussed in section IV.A.2 of this document, DOE has identified microwave ovens on the market that have standby energy consumption lower than the maximum currently required, indicating that there are potential technology options to improve standby power consumption. DOE's initial testing results and review of the CCMS database show that the majority of microwave ovens in both product classes are performing better than the current standards.

1. Screened-Out Technologies

As discussed, DOE considers whether a technology option will adversely impact consumer utility and product availability. In response to the August 2021 NOPD, IPI stated that DOE should reconsider all technology options ( e.g., auto power-down), since allowing an undefined loss of consumer utility to bar consideration of an otherwise feasible technology option distorts the statute's careful balancing of factors. (IPI, No. 15 at p. 1)

DOE has previously stated it is uncertain the extent to which consumers value the function of a continuous display clock, but that loss of such function may result in significant loss of consumer utility. 78 FR 36316, 36362. Consistent with this prior concern, DOE has screened out “automatic power-down” as a technology option due to its impact on consumer utility.

2. Remaining Technologies

Through a review of each technology, DOE tentatively concludes that all of the other identified technologies listed in section IV.A.2 of this document meet all five screening criteria to be examined further as design options in DOE's SNOPR analysis. In summary, DOE did not screen out the following technology options:

(1) Lower-power display technologies;

(2) Cooking sensors with no standby power requirement; and

(3) More efficient power supply and control board options

DOE has initially determined that these technology options are technologically feasible because they are being used or have previously been used in commercially-available products or working prototypes. DOE also finds that all of the remaining technology options meet the other screening criteria ( i.e., practicable to manufacture, install, and service and do not result in adverse impacts on consumer utility, product availability, health, or safety, unique-pathway proprietary technologies). For additional details, see chapter 4 of the SNOPR TSD.

C. Engineering Analysis

The purpose of the engineering analysis is to establish the relationship between the efficiency and cost of microwave ovens. There are two elements to consider in the engineering analysis; the selection of efficiency levels to analyze ( i.e., the “efficiency analysis”) and the determination of product cost at each efficiency level ( i.e., the “cost analysis”). In determining the performance of higher-efficiency microwave ovens, DOE considers technologies and design option combinations not eliminated by the screening analysis. For each product class, DOE estimates the baseline cost, as well as the incremental cost for the product at efficiency levels above the baseline. The output of the engineering analysis is a set of cost-efficiency “curves” that are used in downstream analyses ( i.e., the LCC and PBP analyses and the NIA).

1. Efficiency Analysis

DOE typically uses one of two approaches to develop energy efficiency levels for the engineering analysis: (1) relying on observed efficiency levels in the market ( i.e., the efficiency-level approach), or (2) determining the incremental efficiency improvements associated with incorporating specific design options to a baseline model ( i.e., the design-option approach). Using the efficiency-level approach, the efficiency levels established for the analysis are determined based on the market distribution of existing products (in other words, based on the range of efficiencies and efficiency level “clusters” that already exist on the market). Using the design-option approach, the efficiency levels established for the analysis are determined through detailed engineering calculations and/or computer simulations of the efficiency improvements from implementing specific design options that have been identified in the technology assessment. DOE may also rely on a combination of these two approaches. For example, the efficiency-level approach (based on actual products on the market) may be extended using the design option approach to “gap fill” levels (to bridge large gaps between other identified efficiency levels) and/or to extrapolate to the max-tech level (particularly in cases where the max-tech level exceeds the maximum efficiency level currently available on the market).

In this rulemaking, DOE applied the efficiency-level approach. As discussed, DOE was unable to use the design-option approach because it did not identify specific design options associated with each standby power level.

a. Baseline Efficiency

For each product/product class, DOE generally selects a baseline model as a reference point for each class, and measures changes resulting from potential energy conservation standards against the baseline. The baseline model in each product/product class represents the characteristics of a product/product typical of that class ( e.g., capacity, physical size). Generally, a baseline model is one that just meets current energy conservation standards, or, if no standards are in place, the baseline is typically the most common or least efficient unit on the market.

For microwave-only ovens and countertop convection microwave ovens (“Product Class 1”), the baseline standby power level, EL 0, is equal to the current standard of 1.0 W. For the built-in and over-the-range convection microwave ovens product class (“Product Class 2”), the baseline standby power consumption used for the analysis at EL 0 is equal to the current standard of 2.2 W. This maximum allowable average standby power consumption for Product Class 2 microwave ovens is higher than that allowed for Product Class 1 microwave ovens because, in the June 2013 Final Rule, DOE had concluded that built-in and over-the-range convection microwave ovens require a larger power supply to support additional features such as an exhaust fan, additional relays, and additional lights, and that the larger power supply contributes to a higher standby power consumption. 78 FR 36316, 36328. Nonetheless, DOE expects that certain available design options for reducing standby power consumption for Product Class 2 microwave ovens would be similar to those for Product Class 1 microwave ovens.

b. Higher Efficiency Levels

Using the efficiency-level approach, the higher efficiency levels established for the analysis are determined based on the market distribution of existing products (in other words, based on the range of efficiencies and efficiency level “clusters” that already exist on the market). As noted in section IV.A.2 of this document, DOE's testing suggests that microwave ovens are frequently rated conservatively, such that their certified standby power level is higher than actual values obtained when tested in accordance with appendix I. DOE therefore used the measured standby power levels of microwave oven models in its test sample as a proxy to determine the representative distribution of standby power levels among microwave ovens currently on the market, as shown in Table IV.2 of this document.

According to this efficiency distribution, 85 percent of Product Class 1 microwave ovens achieve a standby power consumption lower than the current standard of 1.0 W, with 45 percent of the market estimated to be achieving 0.8 W, 29 percent achieving 0.6 W, and 11 percent achieving 0.4 W, all without the use of automatic powerdown. For Product Class 1, therefore, DOE analyzed three efficiency levels (“ELs”) above the baseline which correspond to these three standby power levels, as shown in Table IV.3 of this document.

The test results also showed that all of the Product Class 2 test units achieved a standby power consumption in the range of 0.5 W to 1.5 W, lower than the current standard of 2.2 W. As such, DOE analyzed higher efficiency levels for this product class at standby power values evenly distributed within that range: EL 1 at 1.5 W, EL 2 at 1.0 W and EL 3 (max-tech) at 0.5 W. DOE estimates that there are currently no built-in and over-the-range convection microwave ovens in the market at the baseline standby power consumption of 2.2 W.

DOE requests feedback on the efficiency levels analyzed for each product class in this proposal.

In summary, DOE analyzed the following efficiency levels for this proposal:

2. Manufacturer Production Cost Analysis

The cost analysis portion of the engineering analysis is conducted using one or a combination of cost approaches. The selection of cost approach depends on a suite of factors, including the availability and reliability of public information, characteristics of the regulated product, the availability and timeliness of purchasing the product on the market. The cost approaches are summarized as follows:

• Physical teardowns: Under this approach, DOE physically dismantles a commercially available product, component-by-component, to develop a detailed bill of materials for the product.

• Catalog teardowns: In lieu of physically deconstructing a product, DOE identifies each component using parts diagrams (available from manufacturer websites or appliance repair websites, for example) to develop the bill of materials for the product.

• Price surveys: If neither a physical nor catalog teardown is feasible (for example, for tightly integrated products such as fluorescent lamps, which are infeasible to disassemble and for which parts diagrams are unavailable) or cost-prohibitive and otherwise impractical ( e.g., large commercial boilers), DOE conducts price surveys using publicly available pricing data published on major online retailer websites and/or by soliciting prices from distributors and other commercial channels.

For microwave ovens, DOE attempted to estimate the MPC of attaining each efficiency level using the physical teardowns approach described previously. As stated in section IV.A.2 of this document, DOE tore down all 33 microwave ovens in its test sample but was unable to isolate a unique set of technology options associated with each standby power level. As such, DOE tentatively concluded that models demonstrating lower standby power consumption than the current energy conservation standards are not implementing specific technology options, but rather incorporate a comprehensive system-level control board redesign that prioritizes standby power performance from the ground up. Examples of possible redesign strategies include the replacement of microcontrollers and switch mode controllers with modern ones that demonstrate significantly lower quiescent current comsumption at no additional cost compared to those found in inefficient systems and firmware that emphasizes the shutting down of all subassemblies that are not in use while idle. DOE tentatively estimates that while these improvements would not contribute to an increase in the MPC of a control board ( i.e. incremental MPC of $0), the redesign would result in conversion costs for manufacturers as they attempt to bring their microwave oven models into compliance with any proposed standards. See section IV.J.2.a of this document.

DOE requests comment on its tentative conclusion that improvements in standby performance are the result of system-level control board redesigns that require conversion costs but would not result in increases to the manufacturing product cost compared to a control board at baseline.

3. Manufacturer Production Cost-Efficiency Results

The results of the engineering analysis are reported as cost-efficiency data (or “curves”) in the form of MPC (in dollars) versus standby power consumption (in W). For the reasons discussed in sections IV.A.2 and IV.C.2 of this document, DOE estimated an incremental MPC of $0 at all higher efficiency levels, compared to the baseline MPC, for both of the the product classes, as shown in Table IV.5 and Table IV.6 of this document. See chapter 5 of the SNOPR TSD for additional detail on the engineering analysis.

DOE requests comment on the incremental MPCs from the SNOPR engineering analysis.

4. Manufacturer Selling Price

DOE developed a manufacturer markup to convert MPCs to MSPs. The MSP includes direct manufacturing production costs ( i.e., labor, materials, and overhead estimated in DOE's MPCs) and all non-production costs ( i.e., selling, general, and administrative expenses (“SG&A”), research and development (“R&D”), and interest), along with profit. To calculate the MSPs, DOE applied the manufacturer markup to the MPCs estimated in section IV.C.3 of this document for each product class and efficiency level.

DOE estimated the manufacturer markup based on publicly available information from publicly traded microwave oven manufacturers and the manufacturer markup that was used in the June 2013 Final Rule. DOE continued to use a manufacturer markup value of 1.298, the same manufacturer markup that was used in the June 2013 Final Rule, for this SNOPR analysis.

Typically, DOE uses the same manufacturer markups in the consumer analyses ( e.g., LCC analysis, PBP analysis, and NIA) in both the no-new-standards case and the standards cases. However, given that the engineering analysis estimated an incremental MPC of $0 at all efficiency levels, compared to the baseline MPC, DOE developed higher manufacturer markups in the standards cases as DOE expects microwave oven manufacturers to recover at least some of the conversion costs that manufacturers would incur as a result of the analyzed energy conservation standards. Depending on the competitive environment for microwave ovens, some or all of the increased conversion costs may be passed from manufacturers to retailers and then eventually to consumers in the form of higher purchase prices. DOE conservatively used a manufacturer markup in the standards cases that would allow microwave oven manufacturers to fully recover the conversion cost they incur to redesign non-compliant models into compliant models. This increased manufacturer markup was applied to the models that microwave oven manufacturers would need to redesign due to energy conservation standards.

DOE first estimated the conversion costs associated with redesigning non-compliant microwave oven models at each efficiency level for both product classes. These conversion costs include capital conversion costs ( i.e., investments in property, plant, equipment, and tooling necessary to adapt or change existing production facilities such that new product designs can be fabricated and assembled) and product conversion costs ( i.e., investments in R&D, testing, marketing, and other non-capitalized costs necessary to make product designs comply with amended energy conservation standards). See section IV.J.2.c of this document for a complete description of the conversion cost estimates.

DOE then calibrated the manufacturer markups for each product class at each TSL to result in microwave oven manufacturers to be able to fully recover these conversion costs. DOE conservatively calibrated these increased manufacturer markups to result in the INPV in the standards cases to be equal to the INPV in the no-new-standards case. INPV is the sum of the microwave oven manufacturers' industry annual cash flows over the analysis period, discounted using the industry-weighted average cost of capital. Therefore, DOE estimates that if manufacturers were able to increase their manufacturer markups by the values shown in Table IV.7, microwave oven manufacturers would not be any worse off, as measured by INPV, due to standards compared to the no-new-standards case ( i.e., if DOE did not amend energy conservation standards for microwave ovens).

The increase in manufacturer markups in the standards cases results in an increase in the MSP, despite no incremental increase in MPC. Table IV.7 displays the increase in manufacturer markups and the incremental increase in MSP applied to non-compliant models that are redesigned due to the analyzed energy conservation standards.

DOE requests comment on the estimated increased manufacturer markups and incremental MSPs that result from the analyzed energy conservation standards from the SNOPR engineering analysis.

D. Markups Analysis

The markups analysis develops appropriate markups ( e.g., retailer markups, distributor markups, contractor markups) in the distribution chain and sales taxes to convert the MSP estimates derived in the engineering analysis to consumer prices which are then used in the LCC and PBP analysis. At each step in the distribution channel, companies mark up the price of the product to cover business costs and profit margin.

For microwave ovens, DOE further developed baseline and incremental markups for each link in the distribution chain (after the product leaves the manufacturer). Baseline markups are applied to the price of products with baseline efficiency, while incremental markups are applied to the difference in price between baseline and higher-efficiency models (the incremental cost increase). The incremental markup is typically less than the baseline markup and is designed to maintain similar per-unit operating profit before and after new or amended standards.

DOE relied on economic data from the U.S. Census Bureau to estimate average baseline and incremental markups. Specifically, DOE used the 2017 Annual Retail Trade Survey for the “electronics and appliance stores” sector to develop retailer markups.

Chapter 6 of the SNOPR TSD provides additional detail on DOE's development of the baseline and incremental retail markups.

E. Energy Use Analysis

The purpose of the energy use analysis is to determine the annual energy consumption of microwave ovens at different efficiencies in representative U.S. single-family homes, multi-family residences, and mobile homes, and to assess the energy savings potential of increased microwave ovens efficiency. The energy use analysis estimates the range of energy use of microwave ovens in the field ( i.e., as they are actually used by consumers). The energy use analysis provides the basis for other analyses DOE performed, particularly assessments of the energy savings and the savings in consumer operating costs that could result from adoption of amended or new standards.

For this SNOPR, DOE used the same methodology as that described in section IV.D of the August 2021 NOPD. In the June 2013 Final Rule, DOE determined the average hours of operation for microwaves to be 44.9 hours per year. To calibrate the average annual operating hours, DOE primarily used data from the Energy Information Administration (“EIA”)'s Residential Energy Consumption Survey (“ RECS”) 2015. ²³ RECS 2015 provides information on the frequency of microwave oven usage per week for each household. DOE calculated the RECS microwave oven usage factor for each household in the sample by dividing the weighted-average usage based on the entire RECS samples. DOE then multiplied usage factor by the annual operating hours ( i.e., 44.9 hours) for each household in the RECS. DOE subtracted field microwave ovens operating hours from the total number of hours in a year and multiplied that difference by the standby mode power usage at each efficiency level to determine annual standby mode and off mode energy consumption.

Chapter 7 of the SNOPR TSD provides details on DOE's energy use analysis for microwave ovens.

F. Life-Cycle Cost and Payback Period Analysis

DOE conducted LCC and PBP analyses to evaluate the economic impacts on individual consumers of potential energy conservation standards for microwave ovens. The effect of new or amended energy conservation standards on individual consumers usually involves a reduction in operating cost and an increase in purchase cost. DOE used the following two metrics to measure consumer impacts:

(1) The LCC is the total consumer expense of an appliance or product over the life of that product, consisting of total installed cost (manufacturer selling price, distribution chain markups, sales tax, and installation costs) plus operating costs (expenses for energy use, maintenance, and repair). To compute the operating costs, DOE discounts future operating costs to the time of purchase and sums them over the lifetime of the product.

(2) The PBP is the estimated amount of time (in years) it takes consumers to recover the increased purchase cost (including installation) of a more-efficient product through lower operating costs. DOE calculates the PBP by dividing the change in purchase cost at higher efficiency levels by the change in annual operating cost for the year that amended or new standards are assumed to take effect.

For any given efficiency level, DOE measures the change in LCC relative to the LCC in the no-new-standards case, which reflects the estimated efficiency distribution of microwave ovens in the absence of new or amended energy conservation standards. In contrast, the PBP for a given efficiency level is measured relative to the baseline product.

For each considered efficiency level in each product class, DOE calculated the LCC and PBP for a nationally representative set of housing units. As stated previously, DOE developed household samples from the RECS 2015. For each sample household, DOE determined the energy consumption for the microwave ovens and the appropriate energy price. By developing a representative sample of households, the analysis captured the variability in energy consumption and energy prices associated with the use of microwave ovens.

Inputs to the calculation of total installed cost include the cost of the product—which includes MPCs, manufacturer markups, retailer and distributor markups, and sales taxes—and installation costs. Inputs to the calculation of operating expenses include annual energy consumption, energy prices and price projections, repair and maintenance costs, product lifetimes, and discount rates. DOE created distributions of values for product lifetime, discount rates, and sales taxes, with probabilities attached to each value, to account for their uncertainty and variability.

The computer model DOE uses to calculate the LCC and PBP relies on a Monte Carlo simulation to incorporate uncertainty and variability into the analysis. The Monte Carlo simulations randomly sample input values from the probability distributions and microwave ovens user samples. For this rulemaking, the Monte Carlo approach is implemented in MS Excel together with the Crystal Ball add-on. The model calculated the LCC and PBP for products at each efficiency level for 10,000 housing units per simulation run. The analytical results include a distribution of 10,000 data points showing the range of LCC savings for a given efficiency level relative to the no-new-standards case efficiency distribution. In performing an iteration of the Monte Carlo simulation for a given consumer, product efficiency is chosen based on its probability. If the chosen product efficiency is greater than or equal to the efficiency of the standard level under consideration, the LCC and PBP calculation reveals that a consumer is not impacted by the standard level. By accounting for consumers who already purchase more-efficient products, DOE avoids overstating the potential benefits from increasing product efficiency.

DOE calculated the LCC and PBP for all consumers of microwave ovens as if each were to purchase a new product in the expected year of compliance with new or amended standards. Amended standards would apply to microwave ovens manufactured 3 years after the date on which any new or amended standard is published. (42 U.S.C. 6295(g)(10)(B)) At this time, DOE estimates publication of a final rule in 2022. Therefore, for purposes of its analysis, DOE used 2026 as the first year of compliance with any amended standards for microwave ovens.

Table IV.8 summarizes the approach and data DOE used to derive inputs to the LCC and PBP calculations. The subsections that follow provide further discussion. Details of the spreadsheet model, and of all the inputs to the LCC and PBP analyses, are contained in chapter 8 of the SNOPR TSD and its appendices.

1. Product Cost

To calculate consumer product costs, DOE multiplied the MPCs developed in the engineering analysis by the markups described previously (along with sales taxes). DOE used different markups for baseline products and higher-efficiency products because DOE applied an incremental markup to the increase in MSP associated with higher-efficiency products.

Economic literature and historical data suggest that the real costs of many products may trend downward over time according to “learning” or “experience” curves. An experience curve analysis implicitly includes factors such as efficiencies in labor, capital investment, automation, materials prices, distribution, and economies of scale at an industry-wide level. To derive the learning rate parameter for microwave ovens, DOE obtained historical Producer Price Index (“PPI”) data for microwave ovens from the Bureau of Labor Statistics (“BLS”). A PPI for “Household Cooking Appliance Manufacturing: Electric (Including Microwave) Household Ranges, Ovens, Surface Cooking Units, and Equipment” was available for the time period between 1972 and 2020. Inflation-adjusted price indices were calculated by dividing the PPI series by the gross domestic product index from Bureau of Economic Analysis for the same years. Using data from 1972-2020, the estimated learning rate (defined as the fractional reduction in price expected from each doubling of cumulative production) is 10.7 percent.

2. Installation Cost

Installation cost includes labor, overhead, and any miscellaneous materials and parts needed to install the product. DOE found no evidence that installation costs would be impacted with increased efficiency levels.

3. Annual Energy Consumption

For each sampled household, DOE determined the energy consumption for a microwave ovens at different efficiency levels using the approach described previously in section IV.E of this document.

4. Energy Prices

Because it captures the incremental savings associated with a change in energy use from higher efficiency, a marginal electricity price more accurately represents an incremental change in consumer costs than would average electricity prices. Therefore, DOE applied average electricity prices for the energy use of the product purchased in the no-new-standards case, and marginal electricity prices for the incremental change in energy use associated with the other efficiency levels considered.

DOE derived electricity prices in 2021 using data from Edison Electric Institute (“EEI”) Typical Bills and Average Rates reports. DOE used the EEI data to define a marginal price as the ratio of the change in the bill to the change in energy consumption.

To estimate energy prices in future years, DOE multiplied the 2021 energy prices by a projection of annual average price changes for each of the nine census divisions from the Reference case in AEO 2022. AEO 2022 has an end year of 2050. To estimate price trends after 2050, DOE used the average annual rate of change in prices from 2035 through 2050.

5. Maintenance and Repair Costs

Maintenance costs are associated with maintaining the operation of the product; repair costs are associated with repairing or replacing product components that have failed in an appliance. Typically, small incremental increases in product efficiency produce no, or only minor, changes in maintenance and repair costs compared to baseline efficiency products. In this SNOPR analysis, DOE included no changes in maintenance or repair costs for microwave ovens that exceed baseline efficiency.

6. Product Lifetime

For microwave ovens, DOE developed a distribution of lifetimes from which specific values are assigned to the appliances in the samples. DOE conducted an analysis of actual lifetime in the field using a combination of historical shipments data, the stock of the considered appliances in the American Housing Survey, and responses in RECS on the age of the appliances in the homes. The data allowed DOE to estimate a survival function, which provides an average appliance lifetime. This analysis yielded a lifetime probability distribution with an average lifetime for microwave ovens of approximately 10.6 years. See chapter 8 of the SNOPR TSD for further details.

7. Discount Rates

In the calculation of LCC, DOE applies discount rates appropriate to households to estimate the present value of future operating cost savings. DOE estimated a distribution of discount rates for microwave ovens based on the opportunity cost of consumer funds.

DOE applies weighted-average discount rates calculated from consumer debt and asset data, rather than marginal or implicit discount rates. DOE notes that the LCC does not analyze the appliance purchase decision, so the implicit discount rate is not relevant in this model. The LCC estimates net present value over the lifetime of the product, so the appropriate discount rate will reflect the general opportunity cost of household funds, taking this lifetime scale into account. Given the 30-year analysis period modeled in the LCC analysis, the application of a marginal interest rate associated with an initial source of funds is inaccurate. Regardless of the method of purchase, consumers are expected to continue to rebalance their debt and asset holdings over the LCC analysis period, based on the restrictions consumers face in their debt payment requirements and the relative size of the interest rates available on debts and assets. DOE estimates the aggregate impact of this rebalancing using the historical distribution of debts and assets.

To establish residential discount rates for the LCC analysis, DOE identified all relevant household debt or asset classes in order to approximate a consumer's opportunity cost of funds related to appliance energy cost savings. It estimated the average percentage shares of the various types of debt and equity by household income group using data from the Federal Reserve Board's Survey of Consumer Finances (“SCF”) for 1995, 1998, 2001, 2004, 2007, 2010, 2013, 2016, and 2019. Using the SCF and other sources, DOE developed a distribution of rates for each type of debt and asset by income group to represent the rates that may apply in the year in which amended standards would take effect. DOE assigned each sample household a specific discount rate drawn from one of the distributions. The average rate across all types of household debt and equity and income groups, weighted by the shares of each type, is 4.3 percent. See chapter 8 of the SNOPR TSD for further details on the development of consumer discount rates.

8. Energy Efficiency Distribution in the No-New-Standards Case

To accurately estimate the share of consumers that would be affected by a potential energy conservation standard at a particular efficiency level, DOE's LCC analysis considered the projected distribution (market shares) of product efficiencies under the no-new-standards case ( i.e., the case without amended or new energy conservation standards).

To estimate the energy efficiency distribution of microwave ovens for 2026, DOE used data from the engineering analysis. The estimated market shares for the no-new-standards case for microwave ovens are shown in Table IV.9 and reflect no efficiency shift. See chapter 8 of the SNOPR TSD for further information.

DOE requests feedback on its approach to projecting the efficiency distribution in 2026.

9. Payback Period Analysis

The payback period is the amount of time it takes the consumer to recover the additional installed cost of more-efficient products, compared to baseline products, through energy cost savings. Payback periods are expressed in years. Payback periods that exceed the life of the product signify that the increased total installed cost is not recovered in reduced operating expenses.

The inputs to the PBP calculation for each efficiency level are the change in total installed cost of the product and the change in the first-year annual operating expenditures relative to the baseline. The PBP calculation uses the same inputs as the LCC analysis, except that discount rates are not needed.

ASAP, ACEEE, and the CA IOUs commented that efficiency levels presented in the NOPD have payback periods below the average lifetime of the product, which shows economic justification for amended standards. (ASAP, ACEEE, No. 15 at p. 1 and CA IOUs, No. 17 at p. 1)

As noted previously, EPCA establishes a rebuttable presumption that a standard is economically justified if the Secretary finds that the additional cost to the consumer of purchasing a product complying with an energy conservation standard level will be less than three times the value of the first year's energy savings resulting from the standard, as calculated under the applicable test procedure. (42 U.S.C. 6295(o)(2)(B)(iii)) For each considered efficiency level, DOE determined the value of the first year's energy savings by calculating the energy savings in accordance with the applicable DOE test procedure, and multiplying those savings by the average energy price projection for the year in which compliance with the amended standards would be required.

G. Shipments Analysis

DOE uses projections of annual product shipments to calculate the national impacts of potential amended or new energy conservation standards on energy use, NPV, and future manufacturer cash flows. The shipments model takes an accounting approach, tracking market shares of each product class and the vintage of units in the stock. Stock accounting uses product shipments as inputs to estimate the age distribution of in-service product stocks for all years. The age distribution of in-service product stocks is a key input to calculations of both the NES and NPV, because operating costs for any year depend on the age distribution of the stock.

Total shipments for microwave ovens are developed by considering the demand from replacements for units in stock that fail and the demand from new installations in newly constructed homes. DOE calculated shipments due to replacements using the retirement function developed for the LCC analysis and historical data from AHAM. DOE calculated shipments due to new installations using estimates from microwave oven saturation rate in new homes in RECS 2015 and projections of new housing starts from AEO 2022. See chapter 9 of the SNOPR TSD for details.

For this SNOPR analysis, DOE used data from a market research report and estimated the market share for built-in and over-the-range convection microwave ovens at 4 percent.

DOE considers the impacts on shipments from changes in product purchase price and operating cost associated with higher energy efficiency levels using a price elasticity and an efficiency elasticity. DOE employs a 0.2-percent efficiency elasticity rate and a price elasticity of -0.45 in its shipments model. The market impact is defined as the difference between the product of price elasticity of demand and the change in price due to a standard level, and the product of the efficiency elasticity and the change in operating costs due to a standard level.

DOE requests comment on its methodology for estimating shipments. DOE also requests comment on its approach to estimate the market share for built-in and over-the-range convection microwave ovens.

H. National Impact Analysis

The NIA assesses the NES and the NPV from a national perspective of total consumer costs and savings that would be expected to result from new or amended standards at specific efficiency levels. (“Consumer” in this context refers to consumers of the product being regulated.) DOE calculates the NES and NPV for the TSLs considered based on projections of annual product shipments, along with the annual energy consumption and total installed cost data from the energy use and LCC analyses. For the present analysis, DOE projected the energy savings, operating cost savings, product costs, and NPV of consumer benefits over the lifetime of microwave ovens sold from 2026 through 2055.

DOE evaluates the impacts of new or amended standards by comparing a case without such standards with standards-case projections. The no-new-standards case characterizes energy use and consumer costs for each product class in the absence of new or amended energy conservation standards. For this projection, DOE considers historical trends in efficiency and various forces that are likely to affect the mix of efficiencies over time. DOE compares the no-new-standards case with projections characterizing the market for each product class if DOE adopted new or amended standards at specific energy efficiency levels ( i.e., the TSLs or standards cases) for that class. For the standards cases, DOE considers how a given standard would likely affect the market shares of products with efficiencies greater than the standard.

DOE uses a spreadsheet model to calculate the energy savings and the national consumer costs and savings from each TSL. Interested parties can review DOE's analyses by changing various input quantities within the spreadsheet. The NIA spreadsheet model uses point values (as opposed to probability distributions) as inputs.

Table IV.10 summarizes the inputs and methods DOE used for the NIA analysis for the SNOPR. Discussion of these inputs and methods follows the table. See chapter 10 of the SNOPR TSD for further details.

1. Product Efficiency Trends

A key component of the NIA is the trend in energy efficiency projected for the no-new-standards case and each of the standards cases. Section IV.F.8 of this document describes how DOE developed an energy efficiency distribution for the no-new-standards case (which yields a shipment-weighted average efficiency) for each of the considered product classes for the year of anticipated compliance with an amended or new standard.

ASAP, NRDC, and the CA IOUs commented that in the public meeting held on September 13, 2021, DOE included an assumption that unit efficiencies will improve by 0.25 percent between 2019 and 2053 and requested how the assumption is derived and how it is integrated into the energy savings evaluation. (ASAP, NRDC, CA IOUs, No. 12 at p. 1)

To project the trend in efficiency absent amended standards for microwave ovens over the entire shipments projection period, DOE used the shipments-weighted standby power (“SWSP”) as a starting point. DOE assumed that the shipment-weighted efficiency would not increase annually for the microwave oven product classes.

For the standards cases, DOE used a “roll-up” scenario to establish the shipment-weighted efficiency for the year that standards are assumed to become effective in 2026. In the year of compliance, the market shares of products in the no-new-standards case that do not meet the standard under consideration would “roll up” to meet the new standard level, and the market share of products above the standard would remain unchanged.

2. National Energy Savings

The national energy savings analysis involves a comparison of national energy consumption of the considered products between each TSL and the case with no new or amended energy conservation standards. DOE calculated the national energy consumption by multiplying the number of units (stock) of each product (by vintage or age) by the unit energy consumption (also by vintage). DOE calculated annual NES based on the difference in national energy consumption for the no-new standards case and for each higher efficiency standard case. DOE estimated energy consumption and savings based on site energy and converted the electricity consumption and savings to primary energy ( i.e., the energy consumed by power plants to generate site electricity) using annual conversion factors derived from AEO 2022. Cumulative energy savings are the sum of the NES for each year over the timeframe of the analysis.

Use of higher-efficiency products is occasionally associated with a direct rebound effect, which refers to an increase in utilization of the product due to the increase in efficiency. DOE did not find any data on the rebound effect specific to microwave ovens.

In 2011, in response to the recommendations of a committee on “Point-of-Use and Full-Fuel-Cycle Measurement Approaches to Energy Efficiency Standards” appointed by the National Academy of Sciences, DOE announced its intention to use FFC measures of energy use and greenhouse gas and other emissions in the national impact analyses and emissions analyses included in future energy conservation standards rulemakings. 76 FR 51281 (Aug. 18, 2011). After evaluating the approaches discussed in the August 18, 2011 notice, DOE published a statement of amended policy in which DOE explained its determination that EIA's National Energy Modeling System (“NEMS”) is the most appropriate tool for its FFC analysis and its intention to use NEMS for that purpose. 77 FR 49701 (Aug. 17, 2012). NEMS is a public domain, multi-sector, partial equilibrium model of the U.S. energy sector that EIA uses to prepare its Annual Energy Outlook. The FFC factors incorporate losses in production and delivery in the case of natural gas (including fugitive emissions) and additional energy used to produce and deliver the various fuels used by power plants. The approach used for deriving FFC measures of energy use and emissions is described in appendix 10B of the SNOPR TSD.

3. Net Present Value Analysis

The inputs for determining the NPV of the total costs and benefits experienced by consumers are (1) total annual installed cost, (2) total annual operating costs (energy costs and repair and maintenance costs), and (3) a discount factor to calculate the present value of costs and savings. DOE calculates net savings each year as the difference between the no-new-standards case and each standards case in terms of total savings in operating costs versus total increases in installed costs. DOE calculates operating cost savings over the lifetime of each product shipped during the projection period.

As discussed in section IV.F.1 of this document, DOE developed microwave oven price trends based on historical PPI data. DOE applied the same trends to project prices for each product class at each considered efficiency level. By 2055, which is the end date of the projection period, the average microwave oven price is projected to drop 11 percent relative to 2021. DOE's projection of product prices is described in appendix 10C of the SNOPR TSD.

To evaluate the effect of uncertainty regarding the price trend estimates, DOE investigated the impact of different product price projections on the consumer NPV for the considered TSLs for microwave ovens. In addition to the default price trend, DOE considered two product price sensitivity cases: (1) a low price decline case based on the “electric household cooking products” PPI series from 1972 to 1992 and (2) a high price decline scenario based on the same PPI series from 1993 to 2021, which shows a faster price decline than the full time series between 1972-2021. The derivation of these price trends and the results of these sensitivity cases are described in appendix 10C of the SNOPR TSD.

The operating cost savings are energy cost savings, which are calculated using the estimated energy savings in each year and the projected price of the appropriate form of energy. To estimate energy prices in future years, DOE multiplied the average regional energy prices by the projection of annual national-average residential energy price changes in the Reference case from AEO 2022, which has an end year of 2050. To estimate price trends after 2050, DOE used the average annual rate of change in prices from 2035 through 2050. As part of the NIA, DOE also analyzed scenarios that used inputs from variants of the AEO 2022 Reference case that have lower and higher economic growth. Those cases have lower and higher energy price trends compared to the Reference case. NIA results based on these cases are presented in appendix 10D of the SNOPR TSD.

In calculating the NPV, DOE multiplies the net savings in future years by a discount factor to determine their present value. For this SNOPR, DOE estimated the NPV of consumer benefits using both a 3-percent and a 7-percent real discount rate. DOE uses these discount rates in accordance with guidance provided by the Office of Management and Budget (“OMB”) to Federal agencies on the development of regulatory analysis. The discount rates for the determination of NPV are in contrast to the discount rates used in the LCC analysis, which are designed to reflect a consumer's perspective. The 7-percent real value is an estimate of the average before-tax rate of return to private capital in the U.S. economy. The 3-percent real value represents the “social rate of time preference,” which is the rate at which society discounts future consumption flows to their present value.

I. Consumer Subgroup Analysis

In analyzing the potential impact of new or amended energy conservation standards on consumers, DOE evaluates the impact on identifiable subgroups of consumers that may be disproportionately affected by a new or amended national standard. The purpose of a subgroup analysis is to determine the extent of any such disproportional impacts. DOE evaluates impacts on particular subgroups of consumers by analyzing the LCC impacts and PBP for those particular consumers from alternative standard levels. For this SNOPR, DOE analyzed the impacts of the considered standard levels on two subgroups: (1) low-income households and (2) senior-only households. The analysis used subsets of the RECS 2015 sample composed of households that meet the criteria for the two subgroups and shows the percentages of those both negatively and positively impacted. DOE used the LCC and PBP spreadsheet model to estimate the impacts of the considered efficiency levels on these subgroups. Chapter 11 in the SNOPR TSD describes the consumer subgroup analysis.

J. Manufacturer Impact Analysis

1. Overview

DOE performed an MIA to estimate the financial impacts of amended energy conservation standards on manufacturers of microwave ovens and to estimate the potential impacts of such standards on employment and manufacturing capacity. The MIA has both quantitative and qualitative aspects and includes analyses of projected industry cash flows; the INPV; investments in R&D and manufacturing capital; and domestic manufacturing employment. Additionally, the MIA seeks to determine how amended energy conservation standards might affect manufacturing employment, capacity, and competition, as well as how standards contribute to overall regulatory burden. Finally, the MIA serves to identify any disproportionate impacts on manufacturer subgroups, including small business manufacturers.

The quantitative part of the MIA primarily relies on the GRIM, an industry cash flow model with inputs specific to this rulemaking. The key GRIM inputs include data on the industry cost structure, MPCs, product shipments, manufacturer markups, and investments in R&D and manufacturing capital required to produce compliant products. The key GRIM output is the INPV, which is the sum of industry annual cash flows over the analysis period, discounted using the industry-weighted average cost of capital. The model uses standard accounting principles to estimate the impacts of more-stringent energy conservation standards on a given industry by comparing changes in INPV between a no-new-standards case and the various standards cases (TSLs). To capture the uncertainty relating to manufacturer pricing strategies following amended standards, the GRIM estimates a range of possible impacts under different manufacturer markup scenarios.

The qualitative part of the MIA addresses manufacturer characteristics and market trends. Specifically, the MIA considers such factors as a potential standard's impact on manufacturing capacity, competition within the industry, the cumulative impact of other DOE and non-DOE regulations, and impacts on manufacturer subgroups. The complete MIA is outlined in chapter 12 of the SNOPR TSD.

DOE prepared a profile of the microwave oven manufacturing industry based on the market and technology assessment and information from the June 2013 Final Rule. This included a top-down analysis of microwave oven manufacturers that DOE used to derive preliminary financial inputs for the GRIM ( e.g., revenues; materials, labor, overhead, and depreciation expenses; SG&A; and R&D expenses).

Additionally, DOE prepared a framework industry cash-flow analysis to quantify the potential impacts of amended energy conservation standards. The GRIM uses several factors to determine a series of annual cash flows starting with the announcement of the standard and extending over a 30-year period following the compliance date of the standard. These factors include annual expected revenues, costs of sales, SG&A and R&D expenses, taxes, and capital expenditures. In general, energy conservation standards can affect manufacturer cash flow in three distinct ways: (1) creating a need for increased investment, (2) raising production costs per unit, and (3) altering revenue due to higher per-unit prices and changes in sales volumes.

DOE also evaluated subgroups of manufacturers that may be disproportionately impacted by amended standards or that may not be accurately represented by the average cost assumptions used to develop the industry cash flow analysis. Such manufacturer subgroups may include small business manufacturers, low-volume manufacturers, niche players, and/or manufacturers exhibiting a cost structure that largely differs from the industry average. DOE identified one subgroup for a separate impact analysis: small business manufacturers. The small business subgroup is discussed in section VI.B of this document, “Review under the Regulatory Flexibility Act,” and in chapter 12 of the SNOPR TSD.

2. Government Regulatory Impact Model and Key Inputs

DOE uses the GRIM to quantify the changes in cash flow due to amended standards that result in a higher or lower industry value. The GRIM uses a standard, annual discounted cash-flow analysis that incorporates manufacturer costs, manufacturer markups, shipments, and industry financial information as inputs. The GRIM models changes in costs, distribution of shipments, investments, and manufacturer margins that could result from amended energy conservation standards. The GRIM spreadsheet uses the inputs to arrive at a series of annual cash flows, beginning in 2022 (the reference year of the analysis) and continuing to 2055. DOE calculated INPVs by summing the stream of annual discounted cash flows during this period. For manufacturers of microwave ovens, DOE used a real discount rate of 8.5 percent, which was the same real discount rate used in the June 2013 Final Rule and that was verified during manufacturer interviews for that rulemakings analysis.

The GRIM calculates cash flows using standard accounting principles and compares changes in INPV between the no-new-standards case and each standards case. The difference in INPV between the no-new-standards case and a standards case represents the financial impact of the amended energy conservation standard on manufacturers. As discussed previously, DOE developed critical GRIM inputs using a number of sources, including publicly available data, results of the engineering analysis, and information used in the June 2013 Final Rule. The GRIM results are presented in section V.B.2 of this document. Additional details about the GRIM, the discount rate, and other financial parameters can be found in chapter 12 of the SNOPR TSD.

a. Manufacturer Production Costs

Manufacturing a more efficient product is typically more expensive than manufacturing a baseline product due to the use of more complex components, which are typically more costly than baseline components. The changes in the MPCs of covered products can affect the revenues, gross margins, and cash flow of the industry. As previously stated in the engineering analysis in section IV.C.3 of this document, DOE estimated an incremental MPC of $0 at all efficiency levels, compared to the baseline MPC.

b. Shipments Projections

The GRIM estimates manufacturer revenues based on total unit shipment projections and the distribution of those shipments by efficiency level. Changes in sales volumes and efficiency mix over time can significantly affect manufacturer finances. For this analysis, the GRIM uses the NIA's annual shipment projections derived from the shipments analysis from 2022 (the reference year) to 2055 (the end year of the analysis period). See chapter 9 of the SNOPR TSD for additional details.

c. Product and Capital Conversion Costs

Amended energy conservation standards could cause manufacturers to incur conversion costs to bring their production facilities and product designs into compliance. DOE evaluated the level of conversion-related expenditures that would be needed to comply with each considered efficiency level in each product class. For the MIA, DOE classified these conversion costs into two major groups: (1) product conversion costs and (2) capital conversion costs. Product conversion costs are investments in research, development, testing, marketing, and other non-capitalized costs necessary to make product designs comply with amended energy conservation standards. Capital conversion costs are investments in property, plant, and product necessary to adapt or change existing production facilities such that new compliant product designs can be fabricated and assembled.

DOE used a bottom-up cost estimate to arrive at a total industry conversion cost at each EL for both product classes. First DOE estimated the investments manufacturers are likely to incur to resdesign a single microwave oven control board to be able to meet the analyzed energy conservation standards. These per-board conversion costs were based on manufacturer interviews and include both a per-board capital conversion costs ( e.g., investments in machinery and tooling) as well as product conversion costs ( e.g., investments in R&D and testing). Based on manufacturer feedback, DOE assigned a smaller level of investments necessary to achieve lower ELs and a larger level of investment to achieve higher ELs.

Next, based on engineering teardowns and market research, DOE estimated the total number of unique control boards used across all covered microwave ovens. DOE used the percent of unique microwave oven models for each product class that were certified in DOE's publicly available Compliance Certification Database (“CCD”) to estimate the number of unique control boards for each product class. Then DOE used the efficiency distribution from the shipments analysis to estimate the number of unique control boards specific to each efficiency level, for each product class. Once DOE estimated the number of unique control boards, DOE used the per-board redesign costs specific to achieve each analyzed efficiency level to arrive at the total industry conversion costs.

d. Markup Scenarios

MSPs include direct manufacturing production costs ( i.e., labor, materials, and overhead estimated in DOE's MPCs) and all non-production costs ( i.e., SG&A, R&D, and interest), along with profit. To calculate the MSPs in the GRIM, DOE applied non-production cost markups to the MPCs estimated in the engineering analysis for each product class and efficiency level. Modifying these markups in the standards case yields different sets of impacts on manufacturers. In the no-new-standards case, DOE used a manufacturer markup of 1.298 for both product classes. This is the same manufacturer markup that was used in the June 2013 Final Rule.

For the MIA, DOE modeled two standards case manufacturer markup scenarios to represent uncertainty regarding the potential impacts on prices and profitability for manufacturers following the implementation of amended energy conservation standards: (1) a conversion cost recovery markup scenario and (2) a constant price scenario. These scenarios lead to different manufacturer markup values at each TSL that, when applied to the MPCs, result in varying revenue and cash flow impacts.

Under the conversion cost recovery markup scenario, DOE modeled a scenario where manufacturers increase their manufacturer markups in response to amended energy conservation standards. Because DOE's engineering analysis assumed there were no increases in the MPCs at higher ELs, compared to the baseline MPCs, and that microwave oven manufacturers would incur conversion costs to redesign non-compliant models, DOE modeled a manufacturer markup scenario where microwave oven manufacturers attempt to recover these investment through an increase in their manufacturer markup. Therefore, in the standards cases the manufacturer markup of models that would need to be re-designed is a value larger than the 1.298 manufacturer markup used in the no-new-standards case. DOE calibrated these manufacturer markups for each product class at each EL to cause manufacturer INPV in the standards cases to be equal to the INPV in the no-new-standards case. This represents the upper-bound of manufacturer profitability, as in this manufacturer markup scenario, microwave oven manufacturers are no worse off, as measured by INPV, with energy conservation standards than in the no-new-standards case ( i.e., if DOE did not amend energy conservation standards).

Under the constant price scenario, DOE applied the same manufacturer markup, 1.298, for all efficiency levels in the no-new-standards case and the standards cases. Because DOE's engineering analysis assumed there were no increases in the MPCs at higher ELs and that microwave oven manufacturers would incur conversion costs to redesign non-compliant models, microwave oven manufacturers do not earn any additional revenue in the standards cases than in the no-new-standards case, despite incurring conversion costs to redesign non-compliant microwave oven models. This represents the lower-bound of manufacturer profitability, as microwave oven manufacturers incur conversion costs but do not receive any additional revenue from these redesign efforts.

A comparison of industry financial impacts under the two manufacturer markup scenarios is presented in section V.B.2.a of this document.

3. Discussion of MIA Comments

In response to the August 2021 NOPD, AHAM stated that if DOE decides to amend the microwave oven standards, it should conduct manufacturer interviews to better understand the challenges with existing technology options and what the costs associated with energy efficiency improvements would be. (AHAM, No. 14 at p. 2) In response to AHAM's comment, DOE conducted interviews with manufacturers to discuss the potential impacts of energy conservation standards for microwave ovens to manufacturers. DOE included conversion cost estimates associated with redesigning microwave ovens to be able to achieve energy efficiency improvements as part of the MIA conducted for this SNOPR.

K. Emissions Analysis

The emissions analysis consists of two components. The first component estimates the effect of potential energy conservation standards on power sector and site (where applicable) combustion emissions of CO₂, NO_X, SO₂, and Hg. The second component estimates the impacts of potential standards on emissions of two additional greenhouse gases, CH₄ and N₂ O, as well as the reductions to emissions of other gases due to “upstream” activities in the fuel production chain. These upstream activities comprise extraction, processing, and transporting fuels to the site of combustion.

The analysis of power sector emissions of CO₂, NO_X, SO₂, and Hg uses marginal emissions factors that were derived from data in AEO 2022, as described in section IV.K of this document. Details of the methodology are described in the appendices to chapters 13 and 15 of the SNOPR TSD.

Power sector emissions of CO₂, CH₄, and N₂ O are estimated using Emission Factors for Greenhouse Gas Inventories published by the Environmental Protection Agency (“EPA”). The FFC upstream emissions are estimated based on the methodology described in chapter 15 of the SNOPR TSD. The upstream emissions include both emissions from extraction, processing, and transportation of fuel, and “fugitive” emissions (direct leakage to the atmosphere) of CH₄ and CO₂.

The emissions intensity factors are expressed in terms of physical units per megawatt-hours (“MWh”) or million British thermal units (“MMBtu”) of site energy savings. For power sector emissions, specific emissions intensity factors are calculated by sector and end use. Total emissions reductions are estimated using the energy savings calculated in the national impact analysis.

1. Air Quality Regulations Incorporated in DOE's Analysis

DOE's no-new-standards case for the electric power sector reflects the AEO 2022, which incorporates the projected impacts of existing air quality regulations on emissions. AEO 2022 generally represents current legislation and environmental regulations, including recent government actions that were in place at the time of preparation of AEO 2022, including the emissions control programs discussed in the following paragraphs.

SO₂ emissions from affected electric generating units (“EGUs”) are subject to nationwide and regional emissions cap-and-trade programs. Title IV of the Clean Air Act sets an annual emissions cap on SO₂ for affected EGUs in the 48 contiguous States and the District of Columbia (D.C.). (42 U.S.C. 7651 et seq. ) SO₂ emissions from numerous States in the eastern half of the United States are also limited under the Cross-State Air Pollution Rule (“CSAPR”). 76 FR 48208 (Aug. 8, 2011). CSAPR requires these States to reduce certain emissions, including annual SO₂ emissions; it went into effect in 2015 and has been subsequently updated. ⁴² AEO 2022 incorporates implementation of CSAPR, including the Revised CSAPR Update issued in 2021. Compliance with CSAPR is flexible among EGUs and is enforced through the use of tradable emissions allowances. Under existing EPA regulations, for states subject to SO₂ emissions limits under CSAPR, any excess SO₂ emissions allowances resulting from the lower electricity demand caused by the adoption of an efficiency standard could be used to permit offsetting increases in SO₂ emissions by another regulated EGU.

Beginning in 2016, SO₂ emissions began to fall as a result of implementation of the Mercury and Air Toxics Standards (“MATS”) for power plants. 77 FR 9304 (Feb. 16, 2012). In the MATS final rule, EPA established a standard for hydrogen chloride as a surrogate for acid gas hazardous air pollutants (“HAP”), and also established a standard for SO₂ (a non-HAP acid gas) as an alternative equivalent surrogate standard for acid gas HAP. The same controls are used to reduce HAP and non-HAP acid gas; thus, SO₂ emissions are being reduced as a result of the control technologies installed on coal-fired power plants to comply with the MATS requirements for acid gas. In order to continue operating, coal power plants must have either flue gas desulfurization or dry sorbent injection systems installed. Both technologies, which are used to reduce acid gas emissions, also reduce SO₂ emissions. Because of the emissions reductions under the MATS, it is unlikely that excess SO₂ emissions allowances resulting from the lower electricity demand would be needed or used to permit offsetting increases in SO₂ emissions by another regulated EGU. Therefore, energy conservation standards that decrease electricity generation would generally reduce SO₂ emissions. DOE estimated SO₂ emissions reduction using emissions factors based on AEO 2022.

CSAPR also established limits on NO_X emissions for numerous States in the eastern half of the United States. Energy conservation standards would have little effect on NO_X emissions in those States covered by CSAPR emissions limits if excess NO_X emissions allowances resulting from the lower electricity demand could be used to permit offsetting increases in NO_X emissions from other EGUs. In such case, NO_X emissions would remain near the limit even if electricity generation goes down. A different case could possibly result, depending on the configuration of the power sector in the different regions and the need for allowances, such that NO_X emissions might not remain at the limit in the case of lower electricity demand. In this case, energy conservation standards might reduce NO_X emissions in covered States. Despite this possibility, DOE has chosen to be conservative in its analysis and has maintained the assumption that standards will not reduce NO_X emissions in States covered by CSAPR. Energy conservation standards would be expected to reduce NO_X emissions in the States not covered by CSAPR.

The MATS limit mercury emissions from power plants, but they do not include emissions caps and, as such, DOE's energy conservation standards would be expected to slightly reduce Hg emissions. DOE estimated mercury emissions reduction using emissions factors based on AEO 2022, which incorporates the MATS.

L. Monetizing Emissions Impacts

As part of the development of this proposed rule, for the purpose of complying with the requirements of Executive Order 12866, DOE considered the estimated monetary benefits from the reduced emissions of CO_2, CH₄, N₂ O, NO_X, and SO₂ that are expected to result from each of the TSLs considered. In order to make this calculation analogous to the calculation of the NPV of consumer benefit, DOE considered the reduced emissions expected to result over the lifetime of products shipped in the projection period for each TSL. This section summarizes the basis for the values used for monetizing the emissions benefits and presents the values considered in this SNOPR.

On March 16, 2022, the Fifth Circuit Court of Appeals (No. 22-30087) granted the federal government's emergency motion for stay pending appeal of the February 11, 2022, preliminary injunction issued in Louisiana v. Biden, No. 21-cv-1074-JDC-KK (W.D. La.). As a result of the Fifth Circuit's order, the preliminary injunction is no longer in effect, pending resolution of the federal government's appeal of that injunction or a further court order. Among other things, the preliminary injunction enjoined the defendants in that case from “adopting, employing, treating as binding, or relying upon” the interim estimates of the social cost of greenhouse gases—which were issued by the Interagency Working Group on the Social Cost of Greenhouse Gases on February 26, 2021—to monetize the benefits of reducing greenhouse gas emissions. In the absence of further intervening court orders, DOE will revert to its approach prior to the injunction and present monetized benefits where appropriate and permissible under law. DOE requests comment on how to address the climate benefits and other non-monetized effects of the proposal.

1. Monetization of Greenhouse Gas Emissions

DOE estimated the monetized benefits of the reductions in emissions of CO₂, CH₄, and N₂ O by using a measure of the social cost (“SC”) of each pollutant ( e.g., SC-CO₂). These estimates represent the monetary value of the net harm to society associated with a marginal increase in emissions of these pollutants in a given year, or the benefit of avoiding that increase. These estimates are intended to include (but are not limited to) climate-change-related changes in net agricultural productivity, human health, property damages from increased flood risk, disruption of energy systems, risk of conflict, environmental migration, and the value of ecosystem services.

DOE exercises its own judgment in presenting monetized climate benefits as recommended by applicable Executive Orders, and DOE would reach the same conclusion presented in this proposed rulemaking in the absence of the social cost of greenhouse gases, including the February 2021 Interim Estimates presented by the Interagency Working Group on the Social Cost of Greenhouse Gases.

DOE estimated the global social benefits of CO₂, CH₄, and N₂ O reductions ( i.e., SC-GHGs) using the estimates presented in the Technical Support Document: Social Cost of Carbon, Methane, and Nitrous Oxide Interim Estimates under Executive Order 13990 published in February 2021 by the IWG. The SC-GHGs is the monetary value of the net harm to society associated with a marginal increase in emissions in a given year, or the benefit of avoiding that increase. In principle, SC-GHGs includes the value of all climate change impacts, including (but not limited to) changes in net agricultural productivity, human health effects, property damage from increased flood risk and natural disasters, disruption of energy systems, risk of conflict, environmental migration, and the value of ecosystem services. The SC-GHGs therefore, reflects the societal value of reducing emissions of the gas in question by one metric ton. The SC-GHGs is the theoretically appropriate value to use in conducting benefit-cost analyses of policies that affect CO₂, N₂ O and CH4 emissions. As a member of the IWG involved in the development of the February 2021 SC-GHG TSD, DOE agrees that the interim SC-GHG estimates represent the most appropriate estimate of the SC-GHG until revised estimates have been developed reflecting the latest, peer-reviewed science.

The SC-GHGs estimates presented here were developed over many years, using a transparent process, peer-reviewed methodologies, the best science available at the time of that process, and with input from the public. Specifically, in 2009, the IWG, that included DOE and other executive branch agencies and offices, was established to ensure that agencies were using the best available science and to promote consistency in the SC-CO₂ values used across agencies. The IWG published SC-CO₂ estimates in 2010 that were developed from an ensemble of three widely cited integrated assessment models (“IAMs”) that estimate global climate damages using highly aggregated representations of climate processes and the global economy combined into a single modeling framework. The three IAMs were run using a common set of input assumptions in each model for future population, economic, and CO₂ emissions growth, as well as equilibrium climate sensitivity—a measure of the globally averaged temperature response to increased atmospheric CO₂ concentrations. These estimates were updated in 2013 based on new versions of each IAM. In August 2016 the IWG published estimates of the SC-CH₄ and SC-N₂ O using methodologies that are consistent with the methodology underlying the SC-CO₂ estimates. The modeling approach that extends the IWG SC-CO2 methodology to non-CO₂ GHGs has undergone multiple stages of peer review. The SC-CH₄ and SC-N₂ O estimates were developed by Marten et al. and underwent a standard double-blind peer review process prior to journal publication. In 2015, as part of the response to public comments received to a 2013 solicitation for comments on the SC-CO₂ estimates, the IWG announced a National Academies of Sciences, Engineering, and Medicine review of the SC-CO₂ estimates to offer advice on how to approach future updates to ensure that the estimates continue to reflect the best available science and methodologies. In January 2017, the National Academies released their final report, Valuing Climate Damages: Updating Estimation of the Social Cost of Carbon Dioxide, and recommended specific criteria for future updates to the SC-CO₂ estimates, a modeling framework to satisfy the specified criteria, and both near-term updates and longer-term research needs pertaining to various components of the estimation process (National Academies, 2017). Shortly thereafter, in March 2017, President Trump issued Executive Order 13783, which disbanded the IWG, withdrew the previous TSDs, and directed agencies to ensure SC-CO₂ estimates used in regulatory analyses are consistent with the guidance contained in OMB's Circular A-4, “including with respect to the consideration of domestic versus international impacts and the consideration of appropriate discount rates” (E.O. 13783, Section 5(c)). Benefit-cost analyses following E.O. 13783 used SC-GHG estimates that attempted to focus on the U.S.-specific share of climate change damages as estimated by the models and were calculated using two discount rates recommended by Circular A-4, 3 percent and 7 percent. All other methodological decisions and model versions used in SC-GHG calculations remained the same as those used by the IWG in 2010 and 2013, respectively.

On January 20, 2021, President Biden issued Executive Order 13990, which re-established the IWG and directed it to ensure that the U.S. Government's estimates of the social cost of carbon and other greenhouse gases reflect the best available science and the recommendations of the National Academies (2017). The IWG was tasked with first reviewing the SC-GHG estimates currently used in Federal analyses and publishing interim estimates within 30 days of the E.O. that reflect the full impact of GHG emissions, including by taking global damages into account. The interim SC-GHG estimates published in February 2021, specifically the SC-CH₄ estimates, are used here to estimate the climate benefits for this proposed rulemaking. The E.O. instructs the IWG to undertake a fuller update of the SC-GHG estimates by January 2022 that takes into consideration the advice of the National Academies (2017) and other recent scientific literature. The February 2021 SC-GHG TSD provides a complete discussion of the IWG's initial review conducted under E.O. 13990. In particular, the IWG found that the SC-GHG estimates used under E.O. 13783 fail to reflect the full impact of GHG emissions in multiple ways.

First, the IWG found that the SC-GHG estimates used under E.O. 13783 fail to fully capture many climate impacts that affect the welfare of U.S. citizens and residents, and those impacts are better reflected by global measures of the SC-GHG. Examples of omitted effects from the E.O. 13783 estimates include direct effects on U.S. citizens, assets, and investments located abroad, supply chains, U.S. military assets and interests abroad, and tourism, and spillover pathways such as economic and political destabilization and global migration that can lead to adverse impacts on U.S. national security, public health, and humanitarian concerns. In addition, assessing the benefits of U.S. GHG mitigation activities requires consideration of how those actions may affect mitigation activities by other countries, as those international mitigation actions will provide a benefit to U.S. citizens and residents by mitigating climate impacts that affect U.S. citizens and residents. A wide range of scientific and economic experts have emphasized the issue of reciprocity as support for considering global damages of GHG emissions. If the United States does not consider impacts on other countries, it is difficult to convince other countries to consider the impacts of their emissions on the United States. The only way to achieve an efficient allocation of resources for emissions reduction on a global basis—and so benefit the United States and its citizens—is for all countries to base their policies on global estimates of damages. As a member of the IWG involved in the development of the February 2021 SC-GHG TSD, DOE agrees with this assessment and, therefore, in this proposed rule DOE centers attention on a global measure of SC-GHG. This approach is the same as that taken in DOE regulatory analyses from 2012 through 2016. A robust estimate of climate damages to U.S. citizens and residents does not currently exist in the literature. As explained in the February 2021 TSD, existing estimates are both incomplete and an underestimate of total damages that accrue to the citizens and residents of the United States because they do not fully capture the regional interactions and spillovers discussed above, nor do they include all of the important physical, ecological, and economic impacts of climate change recognized in the climate change literature. As noted in the February 2021 SC-GHG TSD, the IWG will continue to review developments in the literature, including more robust methodologies for estimating a U.S.-specific SC-GHG value, and explore ways to better inform the public of the full range of carbon impacts. As a member of the IWG, DOE will continue to follow developments in the literature pertaining to this issue.

Second, the IWG found that the use of the social rate of return on capital (7 percent under current OMB Circular A-4 guidance) to discount the future benefits of reducing GHG emissions inappropriately underestimates the impacts of climate change for the purposes of estimating the SC-GHG. Consistent with the findings of the National Academies (2017) and the economic literature, the IWG continued to conclude that the consumption rate of interest is the theoretically appropriate discount rate in an intergenerational context, and recommended that discount rate uncertainty and relevant aspects of intergenerational ethical considerations be accounted for in selecting future discount rates.

Furthermore, the damage estimates developed for use in the SC-GHG are estimated in consumption-equivalent terms, and so an application of OMB Circular A-4's guidance for regulatory analysis would then use the consumption discount rate to calculate the SC-GHG. DOE agrees with this assessment and will continue to follow developments in the literature pertaining to this issue. DOE also notes that while OMB Circular A-4, as published in 2003, recommends using 3 percent and 7 percent discount rates as “default” values, Circular A-4 also reminds agencies that “different regulations may call for different emphases in the analysis, depending on the nature and complexity of the regulatory issues and the sensitivity of the benefit and cost estimates to the key assumptions.” On discounting, Circular A-4 recognizes that “special ethical considerations arise when comparing benefits and costs across generations,” and Circular A-4 acknowledges that analyses may appropriately “discount future costs and consumption benefits . . . at a lower rate than for intragenerational analysis.” In the 2015 Response to Comments on the Social Cost of Carbon for Regulatory Impact Analysis, OMB, DOE, and the other IWG members recognized that “Circular A-4 is a living document” and “the use of 7 percent is not considered appropriate for intergenerational discounting. There is wide support for this view in the academic literature, and it is recognized in Circular A-4 itself.” Thus, DOE concludes that a 7-percent discount rate is not appropriate to apply to value the social cost of greenhouse gases. In this analysis, to calculate the present and annualized values of climate benefits, DOE instead uses the same discount rate as the rate used to discount the value of damages from future GHG emissions, for internal consistency. That approach to discounting follows the same approach that the February 2021 TSD recommends “to ensure internal consistency— i.e., future damages from climate change using the SC-GHG at 2.5 percent should be discounted to the base year of the analysis using the same 2.5 percent rate.” DOE has also consulted the National Academies' 2017 recommendations on how SC-GHG estimates can “be combined in RIAs with other cost and benefits estimates that may use different discount rates.” The National Academies reviewed “several options,” including “presenting all discount rate combinations of other costs and benefits with [SC-GHG] estimates.”

As a member of the IWG involved in the development of the February 2021 SC-GHG TSD, DOE agrees with this assessment and will continue to follow developments in the literature pertaining to this issue.

While the IWG works to assess how best to incorporate the latest, peer reviewed science to develop an updated set of SC-GHG estimates, it set the interim estimates to be the most recent estimates developed by the IWG prior to the group being disbanded in 2017. The estimates rely on the same models and harmonized inputs and are calculated using a range of discount rates. As explained in the February 2021 SC-GHG TSD, the IWG has recommended that agencies revert to the same set of four values drawn from the SC-GHG distributions based on three discount rates as were used in regulatory analyses between 2010 and 2016 and subject to public comment. For each discount rate, the IWG combined the distributions across models and socioeconomic emissions scenarios (applying equal weight to each) and then selected a set of four values recommended for use in benefit-cost analyses: an average value resulting from the model runs for each of three discount rates (2.5 percent, 3 percent, and 5 percent), plus a fourth value, selected as the 95th percentile of estimates based on a 3-percent discount rate. The fourth value was included to provide information on potentially higher-than-expected economic impacts from climate change. As explained in the February 2021 SC-GHG TSD, and DOE agrees, this update reflects the immediate need to have an operational SC-GHG for use in regulatory benefit-cost analyses and other applications that was developed using a transparent process, peer-reviewed methodologies, and the science available at the time of that process. Those estimates were subject to public comment in the context of dozens of proposed rulemakings as well as in a dedicated public comment period in 2013.

There are a number of limitations and uncertainties associated with the SC-GHG estimates. First, the current scientific and economic understanding of discounting approaches suggests discount rates appropriate for intergenerational analysis in the context of climate change are likely to be less than 3 percent, near 2 percent or lower. Second, the IAMs used to produce these interim estimates do not include all of the important physical, ecological, and economic impacts of climate change recognized in the climate change literature and the science underlying their “damage functions”— i.e., the core parts of the IAMs that map global mean temperature changes and other physical impacts of climate change into economic (both market and nonmarket) damages—lags behind the most recent research. For example, limitations include the incomplete treatment of catastrophic and non-catastrophic impacts in the integrated assessment models, their incomplete treatment of adaptation and technological change, the incomplete way in which inter-regional and intersectoral linkages are modeled, uncertainty in the extrapolation of damages to high temperatures, and inadequate representation of the relationship between the discount rate and uncertainty in economic growth over long time horizons. Likewise, the socioeconomic and emissions scenarios used as inputs to the models do not reflect new information from the last decade of scenario generation or the full range of projections. The modeling limitations do not all work in the same direction in terms of their influence on the SC-CO₂ estimates. However, as discussed in the February 2021 TSD, the IWG has recommended that, taken together, the limitations suggest that the interim SC-GHG estimates used in this proposed rule likely underestimate the damages from GHG emissions. DOE concurs with this assessment.

DOE's derivations of the SC-GHG ( i.e., SC-CO₂, SC-N₂ O, and SC-CH₄) values used for this SNOPR are discussed in the following sections, and the results of DOE's analyses estimating the benefits of the reductions in emissions of these pollutants are presented in section V.B.6 of this document.

a. Social Cost of Carbon

The SC-CO₂ values used for this SNOPR were generated using the values presented in the 2021 update from the IWG's February 2021 TSD. Table IV.11 shows the updated sets of SC-CO₂ estimates from the latest interagency update in 5-year increments from 2020 to 2050. The full set of annual values used is presented in appendix 14A of the SNOPR TSD. For purposes of capturing the uncertainties involved in regulatory impact analysis, DOE has determined it is appropriate include all four sets of SC-CO₂ values, as recommended by the IWG.

In calculating the potential global benefits resulting from reduced CO₂ emissions, DOE used the values from the February 2021 SC-GHG TSD, adjusted to 2020$ using the implicit price deflator for gross domestic product (“GDP”) from the Bureau of Economic Analysis. DOE derived values from 2051 to 2070 based on estimates published by EPA. These estimates are based on methods, assumptions, and parameters identical to the 2020-2050 estimates published by the IWG.

DOE multiplied the CO₂ emissions reduction estimated for each year by the SC-CO₂ value for that year in each of the four cases. To calculate a present value of the stream of monetary values, DOE discounted the values in each of the four cases using the specific discount rate that had been used to obtain the SC-CO₂ values in each case. See chapter 13 of the SNOPR TSD for the annual emissions reduction. See appendix 14A of the SNOPR TSD for the annual SC-CO₂ values.

b. Social Cost of Methane and Nitrous Oxide

The SC-CH₄ and SC-N₂ O values used for this SNOPR were generated using the values presented in the 2021 update from the IWG. Table IV.12 shows the updated sets of SC-CH₄ and SC-N₂ O estimates from the latest interagency update in 5-year increments from 2020 to 2050. The full set of annual values used is presented in appendix 14A of the SNOPR TSD. To capture the uncertainties involved in regulatory impact analysis, DOE has determined it is appropriate to include all four sets of SC-CH₄ and SC-N₂ O values, as recommended by the IWG. DOE derived values after 2050 using the approach described above for the SC-CO₂.

DOE multiplied the CH₄ and N₂ O emissions reduction estimated for each year by the SC-CH₄ and SC-N₂ O estimates for that year in each of the cases. To calculate a present value of the stream of monetary values, DOE discounted the values in each of the cases using the specific discount rate that had been used to obtain the SC-CH₄ and SC-N₂ O estimates in each case. See chapter 13 of the SNOPR TSD for the annual emissions reduction. See appendix 14A of the SNOPR TSD for the annual SC-CH₄ and SC-N₂ O values.

2. Monetization of Other Air Pollutants

For the SNOPR, DOE estimated the monetized value of NO_X and SO₂ emissions reductions from electricity generation using the latest benefit-per-ton estimates for that sector from the EPA's Benefits Mapping and Analysis Program. DOE used EPA's values for PM_2.5 -related benefits associated with NO_X and SO₂ and for ozone-related benefits associated with NO_X for 2026, 2030, 2035, and 2040, calculated with discount rates of 3 percent and 7 percent. DOE used linear interpolation to define values for the years not given in the 2026 to 2040 period; for years beyond 2040 the values are held constant. DOE derived values specific to the sector for microwave ovens using a method described in appendix 14B of the SNOPR TSD.

DOE multiplied the emissions reduction (in tons) in each year by the associated $/ton values, and then discounted each series using discount rates of 3 percent and 7 percent as appropriate.

The SCoC Commenters presented reasons why DOE should, as it has in the past, monetize the full climate benefits of greenhouse gas emissions reductions, using the best available estimates, which were derived by the Interagency Working Group on the Social Cost of Greenhouse Gases. The SCoC Commenters also stated that DOE should factor these benefits into its choice of the maximum efficiency level that is economically justified, consistent with its statutory requirement to assess the national need to conserve energy under the Energy Policy and Conservation Act. (SCoC, No. 21 at p. 1)

As discussed, on March 16, 2022, the Fifth Circuit Court of Appeals (No. 22-30087) granted the federal government's emergency motion for stay pending appeal of the February 11, 2022, preliminary injunction issued in Louisiana v. Biden, No. 21-cv-1074-JDC-KK (W.D. La.). As a result of the Fifth Circuit's order, the preliminary injunction is no longer in effect, pending resolution of the federal government's appeal of that injunction or a further court order. Among other things, the preliminary injunction enjoined the defendants in that case from “adopting, employing, treating as binding, or relying upon” the interim estimates of the social cost of greenhouse gases—which were issued by the Interagency Working Group on the Social Cost of Greenhouse Gases on February 26, 2021—to monetize the benefits of reducing greenhouse gas emissions. In the absence of further intervening court orders, DOE will revert to its approach prior to the injunction and present monetized benefits where appropriate and permissible under law.

M. Utility Impact Analysis

The utility impact analysis estimates the changes in installed electrical capacity and generation projected to result for each considered TSL. The analysis is based on published output from the NEMS associated with AEO 2022. NEMS produces the AEO Reference case, as well as a number of side cases that estimate the economy-wide impacts of changes to energy supply and demand. For the current analysis, impacts are quantified by comparing the levels of electricity sector generation, installed capacity, fuel consumption and emissions in the AEO 2022 Reference case and various side cases. Details of the methodology are provided in the appendices to chapters 13 and 15 of the SNOPR TSD.

The output of this analysis is a set of time-dependent coefficients that capture the change in electricity generation, primary fuel consumption, installed capacity and power sector emissions due to a unit reduction in demand for a given end use. These coefficients are multiplied by the stream of electricity savings calculated in the NIA to provide estimates of selected utility impacts of potential new or amended energy conservation standards.

N. Employment Impact Analysis

DOE considers employment impacts in the domestic economy as one factor in selecting a proposed standard. Employment impacts from new or amended energy conservation standards include both direct and indirect impacts. Direct employment impacts are any changes in the number of production and non-production employees of manufacturers of the products subject to standards. The MIA addresses those impacts. Indirect employment impacts are changes in national employment that occur due to the shift in expenditures and capital investment caused by the purchase and operation of more-efficient appliances. Indirect employment impacts from standards consist of the net jobs created or eliminated in the national economy, other than in the manufacturing sector being regulated, caused by (1) reduced spending by consumers on energy, (2) reduced spending on new energy supply by the utility industry, (3) increased consumer spending on the products to which the new standards apply and other goods and services, and (4) the effects of those three factors throughout the economy.

One method for assessing the possible effects on the demand for labor of such shifts in economic activity is to compare sector employment statistics developed by the Labor Department's BLS. BLS regularly publishes its estimates of the number of jobs per million dollars of economic activity in different sectors of the economy, as well as the jobs created elsewhere in the economy by this same economic activity. Data from BLS indicate that expenditures in the utility sector generally create fewer jobs (both directly and indirectly) than expenditures in other sectors of the economy. There are many reasons for these differences, including wage differences and the fact that the utility sector is more capital-intensive and less labor-intensive than other sectors. Energy conservation standards have the effect of reducing consumer utility bills. Because reduced consumer expenditures for energy likely lead to increased expenditures in other sectors of the economy, the general effect of efficiency standards is to shift economic activity from a less labor-intensive sector ( i.e., the utility sector) to more labor-intensive sectors ( e.g., the retail and service sectors). Thus, the BLS data suggest that net national employment may increase due to shifts in economic activity resulting from energy conservation standards.

DOE estimated indirect national employment impacts for the standard levels considered in this SNOPR using an input/output model of the U.S. economy called Impact of Sector Energy Technologies version 4 (“ImSET”). ImSET is a special-purpose version of the “U.S. Benchmark National Input-Output” (“I-O”) model, which was designed to estimate the national employment and income effects of energy-saving technologies. The ImSET software includes a computer-based I-O model having structural coefficients that characterize economic flows among 187 sectors most relevant to industrial, commercial, and residential building energy use.

DOE notes that ImSET is not a general equilibrium forecasting model, and that the uncertainties involved in projecting employment impacts, especially changes in the later years of the analysis. Because ImSET does not incorporate price changes, the employment effects predicted by ImSET may over-estimate actual job impacts over the long run for this rule. Therefore, DOE used ImSET only to generate results for near-term timeframes, where these uncertainties are reduced. For more details on the employment impact analysis, see chapter 16 of the SNOPR TSD.

V. Analytical Results and Conclusions

The following section addresses the results from DOE's analyses with respect to the considered energy conservation standards for microwave ovens. It addresses the TSLs examined by DOE, the projected impacts of each of these levels if adopted as energy conservation standards for microwave ovens, and the standards levels that DOE is proposing to adopt in this SNOPR. Additional details regarding DOE's analyses are contained in the SNOPR TSD supporting this document.

A. Trial Standard Levels

In general, DOE typically evaluates potential amended standards for products and equipment by grouping individual efficiency levels for each class into TSLs. Use of TSLs allows DOE to identify and consider manufacturer cost interactions between the product classes, to the extent that there are such interactions, and market cross elasticity from consumer purchasing decisions that may change when different standard levels are set. DOE analyzed the benefits and burdens of three TSLs for microwave ovens. DOE developed TSLs that combine efficiency levels for each analyzed product class. DOE presents the results for the TSLs in this document, while the results for all efficiency levels that DOE analyzed are in the SNOPR TSD.

Table V.1 presents the TSLs and the corresponding efficiency levels that DOE has identified for potential amended energy conservation standards for microwave ovens. TSL 3 represents the max-tech energy efficiency for all product classes and corresponds to EL 3 for both product classes. TSL 2 and TSL 1 represent interim energy efficiency levels between the current standard level and the max-tech energy efficiency level.

DOE constructed the TSLs for this SNOPR to include ELs representative of ELs with similar characteristics ( i.e., using similar technologies and/or efficiencies, and having roughly comparable equipment availability). The use of representative ELs provided for greater distinction between the TSLs. While representative ELs were included in the TSLs, DOE considered all efficiency levels as part of its analysis and included the efficiency levels with positive LCC savings in the TSLs.

B. Economic Justification and Energy Savings

1. Economic Impacts on Individual Consumers

DOE analyzed the economic impacts on microwave ovens consumers by looking at the effects that potential amended standards at each TSL would have on the LCC and PBP. DOE also examined the impacts of potential standards on selected consumer subgroups. These analyses are discussed in the following sections.

a. Life-Cycle Cost and Payback Period

In general, higher-efficiency products affect consumers in two ways: (1) purchase price increases and (2) annual operating costs decrease. Inputs used for calculating the LCC and PBP include total installed costs ( i.e., product price plus installation costs), and operating costs ( i.e., annual energy use, energy prices, energy price trends, repair costs, and maintenance costs). The LCC calculation also uses product lifetime and a discount rate. Chapter 8 of the SNOPR TSD provides detailed information on the LCC and PBP analyses.

Table V.2 through Table V.5 show the default case LCC and PBP results for the TSLs considered for both product classes. The LCC and PBP results based on the incremental MPC sensitivity cases are presented in appendix 8D of the SNOPR TSD. In the first of each pair of tables, the simple payback is measured relative to the baseline product. In the second of each pair of tables, impacts are measured relative to the efficiency distribution in the no-new-standards case in the compliance year (see section IV.F.8 of this document). Because some consumers purchase products with higher efficiency in the no-new-standards case, the average savings are less than the difference between the average LCC of the baseline product and the average LCC at each TSL. The savings refer only to consumers who are affected by a standard at a given TSL. Those who already purchase a product with efficiency at or above a given TSL are not affected. Consumers for whom the LCC increases at a given TSL experience a net cost.

b. Consumer Subgroup Analysis

In the consumer subgroup analysis, DOE estimated the impact of the considered TSLs on low-income households and senior-only households. Table V.6 and Table V.7 compare the average LCC savings and PBP at each efficiency level for the consumer subgroups with similar metrics for the entire consumer sample for both product classes. In most cases, the average LCC savings and PBP for low-income households and senior-only households at the considered efficiency levels are not substantially different from the average for all households. Chapter 11 of the SNOPR TSD presents the complete LCC and PBP results for the subgroups.

c. Rebuttable Presumption Payback

As discussed in section III.E.2 of this document, EPCA establishes a rebuttable presumption that an energy conservation standard is economically justified if the increased purchase cost for a product that meets the standard is less than three times the value of the first-year energy savings resulting from the standard. (42 U.S.C. 6295(o)(2)(B)(iii)) In calculating a rebuttable presumption payback period for each of the considered TSLs, DOE used discrete values, and, as required by EPCA, based the energy use calculation on the DOE test procedure for microwave ovens. In contrast, the PBPs presented in section V.B.1.a of this document were calculated using distributions that reflect the range of energy use in the field.

Table V.8 presents the rebuttable-presumption payback periods for the considered TSLs for microwave ovens. While DOE examined the rebuttable-presumption criterion, it also considered whether the standard levels considered for the SNOPR are economically justified through a more detailed analysis of the economic impacts of those levels, pursuant to 42 U.S.C. 6295(o)(2)(B)(i), that considers the full range of impacts to the consumer, manufacturer, Nation, and environment. The results of that analysis serve as the basis for DOE to definitively evaluate the economic justification for a potential standard level, thereby supporting or rebutting the results of any preliminary determination of economic justification.

2. Economic Impacts on Manufacturers

DOE performed an MIA to estimate the impact of amended energy conservation standards on manufacturers of microwave ovens. The following section describes the expected impacts on manufacturers at each considered TSL. Chapter 12 of the SNOPR TSD explains the analysis in further detail.

a. Industry Cash Flow Analysis Results

In this section, DOE provides GRIM results from the analysis, which examines changes in the industry that would result from amended energy conservation standards. The following tables illustrate the estimated financial impacts (represented by changes in INPV) of potential amended energy conservation standards on manufacturers of microwave ovens, as well as the conversion costs that DOE estimates manufacturers of microwave ovens would incur at each TSL. To evaluate the range of cash-flow impacts on the microwave oven industry, DOE modeled two manufacturer markup scenarios using different assumptions that correspond to the range of anticipated market responses to amended energy conservation standards: (1) the conversion cost recovery markup scenario and (2) the constant price scenario.

To assess the less severe end of the range of potential impacts, DOE modeled a conversion cost recovery markup scenario which manufacturers are able to increase their manufacturer markups in response to amended energy conservation standards. To assess the more severe end of the range of potential impacts, DOE modeled a constant price scenario which manufacturers incur conversion costs but do not receive any additional revenue from these redesign efforts.

As noted in the MIA methodology discussion (see section IV.J of this document), in addition to manufacturer markup scenarios, the MPCs, shipments, and conversion cost assumptions also affect INPV results.

The results in Table V.9 and Table V.10 present potential INPV impacts for microwave oven manufacturers. Table V.9 reflects the less severe set of potential impacts (conversion cost recovery markup scenario), and Table V.10 represents the more severe set of potential impacts (constant price scenario). In the following discussion, the INPV results refer to the difference in industry value between the no-new-standards case and each standards case that results from the sum of discounted cash flows from 2022 (the reference year) through 2055 (the end of the analysis period).

At TSL 1, DOE estimates impacts on INPV will range from −$3.9 million, which represents a change of −0.3 percent, to no change in INPV. At TSL 1, industry free cash-flow decrease to $99 million, which represents a decrese of approximately 2.1 percent, compared to the no-new-standards case value of $101 million.

TSL 1 would set the energy conservation standard for both product classes at EL 1. DOE estimates that 85 percent of Product Class 1 shipments and 100 percent of Product Class 2 shipments would already meet or exceed the efficiency levels required at TSL 1. DOE expects microwave oven manufacturers to incur approximately $2.8 million in product conversion costs to redesign and re-test non-compliant models and approximately $2.5 million in capital conversion costs to purchase new tooling and equipment necessary to produce these redesigned models.

At TSL 2, DOE estimates impacts on INPV will range from −$34.3 million, which represents a change of −2.5 percent, to no change in INPV. At TSL 2, industry free cash-flow decrease to $83 million, which represents a decrese of approximately 18.3 percent, compared to the no-new-standards case value of $101 million.

TSL 2 would set the energy conservation standard for both product classes at EL 2. DOE estimates that 40 percent of Product Class 1 shipments and 64 percent of Product Class 2 shipments would already meet or exceed the efficiency levels required at TSL 2. DOE expects microwave oven manufacturers to incur approximately $23.6 million in product conversion costs to redesign and re-test non-compliant models and approximately $22.5 million in capital conversion costs to purchase new tooling and equipment necessary to produce these redesigned models.

At TSL 3, DOE estimates impacts on INPV will range from −$80.7 million, which represents a change of −5.8 percent, to no change in INPV. At TSL 3, industry free cash-flow decrease to $58 million, which represents a decrese of approximately 42.9 percent, compared to the no-new-standards case value of $101 million.

TSL 3 would set the energy conservation standard for both product classes at EL 3. DOE estimates that 11 percent of Product Class 1 shipments and 5 percent of Product Class 2 shipments would already meet the efficiency levels required at TSL 3. DOE expects microwave oven manufacturers to incur approximately $55.0 million in product conversion costs to redesign and re-test non-compliant models and approximately $53.3 million in capital conversion costs to purchase new tooling and equipment necessary to produce these redesigned models.

b. Direct Impacts on Employment

DOE estimates that over 95 percent of microwave oven manufacturing occurs outside of the United States. Furthermore, all of the analzyed efficiency levels do not require additional labor and would not impact current manufacturing labor practices. Therefore, DOE estimates that there will be no direct impacts on domestic employment at any of the analyzed TSLs.

c. Impacts on Manufacturing Capacity

As previously mentioned, DOE's proposed amended energy conservation standards for microwave ovens requires a control board re-design. As such, DOE does not estimate significant impacts on manufacturing capacity at any of the analyzed TSLs. Furthermore, given the compliance period, and taking into account that manufacturers currently make products that meet the proposed efficiency levels, DOE expects manufacturers to have sufficient time to incorporate the improved control boards and re-test those models.

d. Impacts on Subgroups of Manufacturers

Small manufacturers, niche equipment manufacturers, and manufacturers exhibiting a cost structure substantially different from the industry average could be affected disproportionately. Using average cost assumptions developed for an industry cash-flow estimate is inadequate to assess differential impacts among manufacturer subgroups.

For the microwave oven industry, DOE identified and evaluated the impact of amended energy conservation standards on one subgroup—small manufacturers. The Small Business Administration (“SBA”) defines a “small business” as having 1,500 employees or fewer for the North American Industry Classification System (“NAICS”) code 335220, “Major Household Appliance Manufacturing.” Based on this definition, DOE identified two small, domestic manufacturers of the covered products that would be subject to amended energy conservation standards.

For a discussion of the impacts on the small manufacturer subgroup, see the regulatory flexibility analysis in section VI.B of this document and chapter 12 of the SNOPR TSD.

e. Cumulative Regulatory Burden

One aspect of assessing manufacturer burden involves looking at the cumulative impact of multiple DOE standards and the product-specific regulatory actions of other Federal agencies that affect the manufacturers of a covered product or product. While any one regulation may not impose a significant burden on manufacturers, the combined effects of several existing or impending regulations may have serious consequences for some manufacturers, groups of manufacturers, or an entire industry. Assessing the impact of a single regulation may overlook this cumulative regulatory burden. In addition to energy conservation standards, other regulations can significantly affect manufacturers' financial operations. Multiple regulations affecting the same manufacturer can strain profits and lead companies to abandon product lines or markets with lower expected future returns than competing products. For these reasons, DOE conducts an analysis of cumulative regulatory burden as part of its rulemakings pertaining to appliance efficiency.

DOE evaluates product-specific regulations that will take effect approximately 3 years before or after the estimated 2026 compliance date of any amended energy conservation standards for microwave ovens. This information is presented in Table V.11.

In addition to the rulemakings listed in Table V.11, DOE has ongoing rulemakings for other products or equipment that microwave oven manufacturers produce, including dehumidifiers; dishwashers; consumer refrigerators, refrigerator-freezers, and freezers; miscellaneous refrigeration products; consumer clothes washers; and residential/consumer clothes dryers. If DOE proposes or finalizes any energy conservation standards for these products or equipment prior to finalizing energy conservation standards for microwave ovens, DOE will include the energy conservation standards for these other products or equipment as part of the cumulative regulatory burden for this microwave ovens rulemaking.

3. National Impact Analysis

This section presents DOE's estimates of the national energy savings and the NPV of consumer benefits that would result from each of the TSLs considered as potential amended standards.

a. Significance of Energy Savings

To estimate the energy savings attributable to potential amended standards for microwave ovens, DOE compared their energy consumption under the no-new-standards case to their anticipated energy consumption under each TSL. The savings are measured over the entire lifetime of products purchased in the 30-year period that begins in the year of anticipated compliance with amended standards (2026-2055). Table V.12 presents DOE's projections of the national energy savings for each TSL considered for microwave ovens. The savings were calculated using the approach described in section IV.H.2 of this document.

OMB Circular A-4 requires agencies to present analytical results, including separate schedules of the monetized benefits and costs that show the type and timing of benefits and costs. Circular A-4 also directs agencies to consider the variability of key elements underlying the estimates of benefits and costs. For this proposed rulemaking, DOE undertook a sensitivity analysis using 9 years, rather than 30 years, of product shipments. The choice of a 9-year period is a proxy for the timeline in EPCA for the review of certain energy conservation standards and potential revision of and compliance with such revised standards. The review timeframe established in EPCA is generally not synchronized with the product lifetime, product manufacturing cycles, or other factors specific to microwave ovens. Thus, such results are presented for informational purposes only and are not indicative of any change in DOE's analytical methodology. The NES sensitivity analysis results based on a 9-year analytical period are presented in Table V.13. The impacts are counted over the lifetime of microwave ovens purchased in 2026-2034.

The energy savings in the SNOPR analyses differ from the energy savings in the NOPD primarily due to the updated product class market share distribution. In the NOPD, national energy savings were estimated by using the same product class market share as presented in the June 2013 Final Rule TSD. For these SNOPR analyses, DOE updated market share distribution using historical shipments data from available literature. The market share for Product Class 2 increased from 1 percent, used in the NOPD analyses, to 4 percent, used in the SNOPR analyses. Additionally, DOE updated historical shipments using data from AHAM's Major Appliance Annual Trends 1989-2020 and updated shipment projections using AEO values to 2022 from 2019.

In response to the August 2021 NOPD, IPI stated that the decision not to pursue any efficiency improvements due to falling just short of what it asserted was an arbitrary threshold for “significance” is troubling given that, for Product Class 2 EL 1 microwave ovens, DOE's initial analysis suggests that some level of efficiency improvement could be achieved at “$0” incremental costs. (IPI, No. 15 at p. 1) ASAP, ACEEE, CFA, NRDC, and NEEA urged DOE to adopt the efficiency levels evaluated for the NOPD if DOE does not evaluate any additional efficiency levels, since the max-tech levels would result in an incremental manufacturing cost of $0.16 for energy savings of 8 percent over the 30-year analysis period. (ASAP, ACEEE, CFA, NRDC, NEEA, No. 16 at p. 2)

As discussed, DOE updated its analysis, including efficiency levels, based on more current information regarding shipments of microwave ovens, resulting in energy savings of around 0.06 quads over 30 years. Further, as also discussed in section III.D of this document, DOE recently eliminated the numerical threshold for determining significance of energy savings, reverting to its earlier approach of doing so on a case-by-case basis. See 86 FR 70892. In this SNOPR, DOE proposes to adopt the energy conservation standards for microwave ovens at TSL 2 and refers stakeholders to section V.C of this document where costs and benefits of the proposal are weighed.

b. Net Present Value of Consumer Costs and Benefits

DOE estimated the cumulative NPV of the total costs and savings for consumers that would result from the TSLs considered for microwave ovens. In accordance with OMB's guidelines on regulatory analysis, DOE calculated NPV using both a 7-percent and a 3-percent real discount rate. Table V.14 shows the consumer NPV results with impacts counted over the lifetime of products purchased in 2026-2055.

The NPV results based on the aforementioned 9-year analytical period are presented in Table V.15. The impacts are counted over the lifetime of products purchased in 2026-2033. As mentioned previously, such results are presented for informational purposes only and are not indicative of any change in DOE's analytical methodology or decision criteria.

c. Indirect Impacts on Employment

It is estimated that that amended energy conservation standards for microwave ovens would reduce energy expenditures for consumers of those products, with the resulting net savings being redirected to other forms of economic activity. These expected shifts in spending and economic activity could affect the demand for labor. As described in section IV.N of this document, DOE used an input/output model of the U.S. economy to estimate indirect employment impacts of the TSLs that DOE considered. There are uncertainties involved in projecting employment impacts, especially changes in the later years of the analysis. Therefore, DOE generated results for near-term timeframe (2026-2031), where these uncertainties are reduced.

The results suggest that the proposed standards would be likely to have a negligible impact on the net demand for labor in the economy. The net change in jobs is so small that it would be imperceptible in national labor statistics and might be offset by other, unanticipated effects on employment. Chapter 16 of the SNOPR TSD presents detailed results regarding anticipated indirect employment impacts.

4. Impact on Utility or Performance of Products

As discussed in section III.E.1.d of this document, DOE has tentatively concluded that the standards proposed in this SNOPR would not lessen the utility or performance of the microwave ovens under consideration in this proposed rulemaking. Manufacturers of these products currently offer units that meet or exceed the proposed standards.

5. Impact of Any Lessening of Competition

DOE considered any lessening of competition that would be likely to result from new or amended standards. As discussed in section III.E.1.e of this document, the Attorney General determines the impact, if any, of any lessening of competition likely to result from a proposed standard, and transmits such determination in writing to the Secretary, together with an analysis of the nature and extent of such impact. To assist the Attorney General in making this determination, DOE has provided DOJ with copies of this SNOPR and the accompanying TSD for review. DOE will consider DOJ's comments on the proposed rule in determining whether to proceed to a final rule. DOE will publish and respond to DOJ's comments in that document. DOE invites comment from the public regarding the competitive impacts that are likely to result from this proposed rule. In addition, stakeholders may also provide comments separately to DOJ regarding these potential impacts. See the ADDRESSES section for information to send comments to DOJ.

6. Need of the Nation To Conserve Energy

Enhanced energy efficiency, where economically justified, improves the Nation's energy security, strengthens the economy, and reduces the environmental impacts (costs) of energy production. Reduced electricity demand due to energy conservation standards is also likely to reduce the cost of maintaining the reliability of the electricity system, particularly during peak-load periods. Chapter 15 in the SNOPR TSD presents the estimated impacts on electricity generating capacity, relative to the no-new-standards case, for the TSLs that DOE considered in this proposed rulemaking.

Energy conservation resulting from potential energy conservation standards for microwave ovens is expected to yield environmental benefits in the form of reduced emissions of certain air pollutants and greenhouse gases. Table V.16 provides DOE's estimate of cumulative emissions reductions expected to result from the TSLs considered in this rulemaking. The emissions were calculated using the multipliers discussed in section III.D of this document. DOE reports annual emissions reductions for each TSL in chapter 13 of the SNOPR TSD.

As part of the analysis for this rulemaking, DOE estimated monetary benefits likely to result from the reduced emissions of CO₂ that DOE estimated for each of the considered TSLs for microwave ovens. Section IV.L of this document discusses the SC-CO₂ values that DOE used. Table V.17 presents the value of CO₂ emissions reduction at each TSL. The time-series of annual values is presented for the proposed TSL in chapter 14 of the SNOPR TSD.

As discussed in section IV.L.2 of this document, DOE estimated monetary benefits likely to result from the reduced emissions of CH₄ and N₂ O that DOE estimated for each of the considered TSLs for microwave ovens. Table V.18 presents the value of the CH₄ emissions reduction at each TSL, and Table V.19 presents the value of the N₂ O emissions reduction at each TSL.

DOE is well aware that scientific and economic knowledge about the contribution of CO₂ and other GHG emissions to changes in the future global climate and the potential resulting damages to the global and U.S. economy continues to evolve rapidly. Thus, any value placed on reduced GHG emissions in this proposed rulemaking is subject to change. That said, because of omitted damages, DOE agrees with the IWG that these estimates most likely underestimate the climate benefits of greenhouse gas reductions. DOE, together with other Federal agencies, will continue to review methodologies for estimating the monetary value of reductions in CO₂ and other GHG emissions. This ongoing review will consider the comments on this subject that are part of the public record for this and other rulemakings, as well as other methodological assumptions and issues. DOE notes that the proposed standards would be economically justified even without inclusion of monetized benefits of reduced GHG emissions.

DOE also estimated the monetary value of the economic benefits associated with SO₂ emissions reductions anticipated to result from the considered TSLs for microwave ovens. The dollar-per-ton values that DOE used are discussed in section IV.L of this document. Table V.20 presents the present value for SO₂ emissions reduction for each TSL calculated using 7-percent and 3-percent discount rates.

DOE also estimated the monetary value of the economic benefits associated with NO_X emissions reductions anticipated to result from the considered TSLs for microwave ovens. The dollar-per-ton values that DOE used are discussed in section IV.L of this document. Table V.21 presents the present value for NO_X emissions reduction for each TSL calculated using 7-percent and 3-percent discount rates.

The benefits of reduced CO₂, CH₄, and N₂ O emissions are collectively referred to as climate benefits. The benefits of reduced SO₂ and NO_X emissions are collectively referred to as health benefits. For the time series of estimated monetary values of reduced emissions, see chapter 14 of the SNOPR TSD.

DOE has not considered the monetary benefits of the reduction of Hg for this SNOPR. Not all the public health and environmental benefits from the reduction of greenhouse gases, NO_X, and SO₂ are captured in the values above, and additional unquantified benefits from the reductions of those pollutants as well as from the reduction of Hg, direct PM, and other co-pollutants may be significant.

7. Other Factors

The Secretary of Energy, in determining whether a standard is economically justified, may consider any other factors that the Secretary deems to be relevant. (42 U.S.C. 6295(o)(2)(B)(i)(VII)) No other factors were considered in this analysis.

8. Summary of Economic Impacts

Table V.22 presents the NPV values that result from adding the monetized estimates of the potential economic, climate, and health benefits resulting from reduced GHG, SO₂, and NO_X emissions to the NPV of consumer benefits calculated for each TSL considered in this rulemaking. The consumer benefits are domestic U.S. monetary savings that occur as a result of purchasing the covered microwave ovens, and are measured for the lifetime of products shipped in 2026-2055. The climate benefits associated with reduced GHG emissions resulting from the adopted standards are global benefits, and are also calculated based on the lifetime of microwave ovens shipped in 2026-2055. The climate benefits associated with four SC-GHG estimates are shown. DOE does not have a single central SC-GHG point estimate and it emphasizes the importance and value of considering the benefits calculated using all four SC-GHG estimates.

The national operating cost savings are domestic U.S. monetary savings that occur as a result of purchasing the covered microwave ovens, and are measured for the lifetime of products shipped in 2026-2055. The benefits associated with reduced GHG emissions achieved as a result of the adopted standards are also calculated based on the lifetime of microwave ovens shipped in 2026-2055.

C. Conclusion

When considering new or amended energy conservation standards, the standards that DOE adopts for any type (or class) of covered product must be designed to achieve the maximum improvement in energy efficiency that the Secretary determines is technologically feasible and economically justified. (42 U.S.C. 6295(o)(2)(A)) In determining whether a standard is economically justified, the Secretary must determine whether the benefits of the standard exceed its burdens by, to the greatest extent practicable, considering the seven statutory factors discussed previously. (42 U.S.C. 6295(o)(2)(B)(i)) The new or amended standard must also result in significant conservation of energy. (42 U.S.C. 6295(o)(3)(B))

For this SNOPR, DOE considered the impacts of amended standards for microwave ovens at each TSL, beginning with the maximum technologically feasible level, to determine whether that level was economically justified. Where the max-tech level was not justified, DOE then considered the next most efficient level and undertook the same evaluation until it reached the highest efficiency level that is both technologically feasible and economically justified and saves a significant amount of energy. DOE refers to this process as the “walk-down” analysis.

To aid the reader as DOE discusses the benefits and/or burdens of each TSL, tables in this section present a summary of the results of DOE's quantitative analysis for each TSL. In addition to the quantitative results presented in the tables, DOE also considers other burdens and benefits that affect economic justification. These include the impacts on identifiable subgroups of consumers who may be disproportionately affected by a national standard and impacts on employment.

DOE also notes that the economics literature provides a wide-ranging discussion of how consumers trade off upfront costs and energy savings in the absence of government intervention. Much of this literature attempts to explain why consumers appear to undervalue energy efficiency improvements. There is evidence that consumers undervalue future energy savings as a result of (1) a lack of information; (2) a lack of sufficient salience of the long-term or aggregate benefits; (3) a lack of sufficient savings to warrant delaying or altering purchases; (4) excessive focus on the short term, in the form of inconsistent weighting of future energy cost savings relative to available returns on other investments; (5) computational or other difficulties associated with the evaluation of relevant tradeoffs; and (6) a divergence in incentives (for example, between renters and owners, or builders and purchasers). Having less than perfect foresight and a high degree of uncertainty about the future, consumers may trade off these types of investments at a higher than expected rate between current consumption and uncertain future energy cost savings.

In DOE's current regulatory analysis, potential changes in the benefits and costs of a regulation due to changes in consumer purchase decisions are included in two ways. First, if consumers forego the purchase of a product in the standards case, this decreases sales for product manufacturers, and the impact on manufacturers attributed to lost revenue is included in the MIA. Second, DOE accounts for energy savings attributable only to products actually used by consumers in the standards case; if a standard decreases the number of products purchased by consumers, this decreases the potential energy savings from an energy conservation standard. DOE provides estimates of shipments and changes in the volume of product purchases in chapter 9 of the SNOPR TSD. However, DOE's current analysis does not explicitly control for heterogeneity in consumer preferences, preferences across subcategories of products or specific features, or consumer price sensitivity variation according to household income.

While DOE is not prepared at present to provide a fuller quantifiable framework for estimating the benefits and costs of changes in consumer purchase decisions due to an energy conservation standard, DOE is committed to developing a framework that can support empirical quantitative tools for improved assessment of the consumer welfare impacts of appliance standards. DOE has posted a paper that discusses the issue of consumer welfare impacts of appliance energy conservation standards, and potential enhancements to the methodology by which these impacts are defined and estimated in the regulatory process. DOE welcomes comments on how to more fully assess the potential impact of energy conservation standards on consumer choice and how to quantify this impact in its regulatory analysis in future rulemakings.

1. Benefits and Burdens of TSLs Considered for Microwave Ovens Standards

Table V.23 and Table V.24 summarize the quantitative impacts estimated for each TSL for microwave ovens. The national impacts are measured over the lifetime of microwave ovens purchased in the 30-year period that begins in the anticipated year of compliance with amended standards (2026-2055). The energy savings, emissions reductions, and value of emissions reductions refer to FFC results. DOE exercises its own judgment in presenting monetized climate benefits as recommended in applicable Executive Orders, and DOE would reach the same conclusion presented in this notice in the absence of the social cost of greenhouse gases, including the February 2021 Interim Estimates presented by the Interagency Working Group on the Social Cost of Greenhouse Gases. The efficiency levels contained in each TSL are described in section V.A of this document.

DOE first considered TSL 3, which represents the max-tech efficiency levels. TSL 3 would save an estimated 0.12 quads of energy, an amount DOE considers significant. Under TSL 3, the NPV of consumer benefit would be $0.28 billion using a discount rate of 7 percent, and $0.65 billion using a discount rate of 3 percent.

The cumulative emissions reductions at TSL 3 are 4.18 Mt of CO₂, 1.90 thousand tons of SO₂, 6.44 thousand tons of NO_X, 0.01 tons of Hg, 28.23 thousand tons of CH_4, and 0.04 thousand tons of N₂ O. The estimated monetary value of the climate benefits from reduced GHG emissions (associated with the average SC-GHG at a 3-percent discount rate) at TSL 3 is $0.21 billion. The estimated monetary value of the health benefits from reduced SO₂ and NO_X emissions reduction at TSL 3 is $0.16 billion using a 7-percent discount rate and $0.37 billion using a 3-percent discount rate.

At TSL 3, the average LCC impact is a savings of $2.13 for PC 1 and $1.78 for PC 2. The simple payback period is 2.0 years for PC 1 and 2.6 years for PC 2. Based on these numbers, there is a rebuttable presumption that TSL 3 is economically justified. (42 U.S.C. 6295(o)(2)(B)(iii)) The fraction of consumers experiencing a net LCC cost is 13 percent for PC 1 and 44 percent for PC 2.

At TSL 3, the projected change in manufacturer INPV ranges from a decrease of approximately $80.7 million, which corresponds to a decrease of approximately 5.8 percent, to no change in INPV. At this TSL, free cash flow is estimated to decrease by 42.9 percent compared to the no-new-standards case value in the year before the compliance year. DOE estimates manufacturers will incur approximately $108.3 million in conversion costs at this TSL.

TSL 3 represents commercially available microwave ovens that have a standby power level of no more than 0.4 W for PC 1 and 0.5 W for PC 2.

The Secretary tentatively concludes that, while TSL 3 for microwave ovens meets the criteria for establishing a rebuttable presumption of economic justification, the benefits of energy savings, positive NPV of consumer benefits, emission reductions, and the estimated monetary value of the climate and health benefits would be outweighed by the impacts on manufacturers, including the conversion costs and profit margin impacts that could result in a reduction in INPV, and the percentage of consumers in PC 2 that would experience a net LCC cost. Consequently, the Secretary has tentatively concluded that TSL 3 is not economically justified.

DOE then considered TSL 2, which would save an estimate 0.06 quads of energy, an amount that DOE considers significant. Under TSL 2, the NPV of consumer benefit would be $0.15 billion using a discount rate of 7 percent, and $0.33 billion using a discount rate of 3 percent.

The cumulative emissions reductions at TSL 2 are 1.86 Mt of CO₂, 0.84 thousand tons of SO₂, 2.86 thousand tons of NO_X, 0.005 tons of Hg, 12.54 thousand tons of CH_4, and 0.02 thousand tons of N₂ O. The estimated monetary value of the climate benefits from reduced GHG emissions (associated with the average SC-GHG at a 3-percent discount rate) at TSL 2 is 0.09 billion. The estimated monetary value of the health benefits from reduced SO₂ and NO_X emissions reduction at TSL 2 is $0.07 billion using a 7-percent discount rate and $0.16 billion using a 3-percent discount rate.

At TSL 2, the average LCC impact is a savings of $0.98 for PC 1 and $0.78 for PC 2. The simple payback period is 1.4 years for PC 1 and 0.8 years for PC 2. The fraction of consumers experiencing a net LCC cost is 5 percent for PC 1 and 8 percent for PC 2.

At TSL 2, the projected change in manufacturer INPV ranges from a decrease of approximately $34.3 million, which corresponds to a decrease of approximately 2.5 percent, to no change in INPV. At this TSL, free cash flow is estimated to decrease by 18.5 percent compared to the no-new-standards case value in the year before the compliance year. DOE estimates manufacturers will incur approximately $46.1 million in conversion costs at this TSL.

The estimated cost of the proposed standards for microwave ovens is $4.8 million per year in increased product costs, while the estimated net benefits are $32.7 million per year. After considering the analysis and weighing the benefits and burdens, the Secretary has tentatively concluded that a standard set at TSL 2 for microwave ovens would be economically justified. At this TSL, the average LCC savings for microwave oven consumers is positive. An estimated 6 percent of microwave oven consumers would experience a net cost. The FFC national energy savings are significant and the NPV of consumer benefits is positive using both a 3-percent and 7-percent discount rate. Notably, the benefits to consumers vastly outweigh the cost to manufacturers. At TSL 2, the NPV of consumer benefits, even measured at the more conservative discount rate of 7 percent, is over 4 times higher than the maximum estimated manufacturers' loss in INPV. The positive LCC savings—a different way of quantifying consumer benefits—reinforces this conclusion. The standard levels at TSL 2 are economically justified even without weighing the estimated monetary value of emissions reductions. When those emissions reductions are included—representing $0.16 billion (using a 3-percent discount rate) or $0.07 billion (using a 7-percent discount rate) in health benefits—the rationale becomes stronger still.

Accordingly, the Secretary has tentatively concluded that TSL 2 would offer the maximum improvement in efficiency that is technologically feasible and economically justified and would result in the significant conservation of energy. Although results are presented here in terms of TSLs, DOE analyzes and evaluates all possible ELs for each product class in its analysis.

Therefore, based on the previous considerations, DOE proposes to adopt the energy conservation standards for microwave ovens at TSL 2. The proposed amended energy conservation standards for microwave ovens, which are expressed as watts, are shown in Table V.25.

2. Annualized Benefits and Costs of the Proposed Standards

The benefits and costs of the proposed standards can also be expressed in terms of annualized values. The annualized net benefit is (1) the annualized national economic value (expressed in 2021$) of the benefits from operating products that meet the proposed standards (consisting primarily of operating cost savings from using less energy, minus increases in product purchase costs, and (2) the annualized monetary value of the benefits of GHGs, NO_X, and SO₂ emission reductions.

Table V.26 shows the annualized values for microwave ovens under TSL 2, expressed in 2021$. The results under the primary estimate are as follows.

Using a 7-percent discount rate for consumer benefits and costs and health benefits from reduced SO₂ and NO_X and a 3-percent discount rate case for climate benefits from reduced GHG emissions, the estimated cost of the proposed standards for microwave ovens is $4.8 million per year in increased product costs, while the estimated annual benefits are $19.3 million from reduced product operating costs, and $5.2 million in climate benefits, and $6.8 million in monetized health benefits. In this case, the net benefit amounts to $26.5 million per year.

Using a 3-percent discount rate for all benefits and costs, the estimated cost of the proposed standards for microwave ovens is $4.8 million per year in increased product costs, while the estimated annual benefits are $23.3 million in reduced operating costs, $5.2 million in climate benefits, and $9.1 million in monetized health benefits. In this case, the net benefit amounts to $32.7 million per year.

VI. Procedural Issues and Regulatory Review

A. Review Under Executive Orders 12866 and 13563

Executive Order (“E.O.”) 12866, “Regulatory Planning and Review,” as supplemented and reaffirmed by E.O. 13563, “Improving Regulation and Regulatory Review, 76 FR 3821 (Jan. 21, 2011), requires agencies, to the extent permitted by law, to (1) propose or adopt a regulation only upon a reasoned determination that its benefits justify its costs (recognizing that some benefits and costs are difficult to quantify); (2) tailor regulations to impose the least burden on society, consistent with obtaining regulatory objectives, taking into account, among other things, and to the extent practicable, the costs of cumulative regulations; (3) select, in choosing among alternative regulatory approaches, those approaches that maximize net benefits (including potential economic, environmental, public health and safety, and other advantages; distributive impacts; and equity); (4) to the extent feasible, specify performance objectives, rather than specifying the behavior or manner of compliance that regulated entities must adopt; and (5) identify and assess available alternatives to direct regulation, including providing economic incentives to encourage the desired behavior, such as user fees or marketable permits, or providing information upon which choices can be made by the public. DOE emphasizes as well that E.O. 13563 requires agencies to use the best available techniques to quantify anticipated present and future benefits and costs as accurately as possible. In its guidance, the Office of Information and Regulatory Affairs (“OIRA”) in the Office of Management and Budget (“OMB”) has emphasized that such techniques may include identifying changing future compliance costs that might result from technological innovation or anticipated behavioral changes. For the reasons stated in the preamble, this proposed regulatory action is consistent with these principles.

Section 6(a) of E.O. 12866 also requires agencies to submit “significant regulatory actions” to OIRA for review. OIRA has determined that this proposed regulatory action does not constitute a “significant regulatory action” under section 3(f) of E.O. 12866. Accordingly, this action was not submitted to OIRA for review under E.O. 12866.

B. Review Under the Regulatory Flexibility Act

The Regulatory Flexibility Act (5 U.S.C. 601 et seq.) requires preparation of an initial regulatory flexibility analysis (“IRFA”) for any rule that by law must be proposed for public comment, unless the agency certifies that the rule, if promulgated, will not have a significant economic impact on a substantial number of small entities. As required by E.O. 13272, “Proper Consideration of Small Entities in Agency Rulemaking,” 67 FR 53461 (Aug. 16, 2002), DOE published procedures and policies on February 19, 2003, to ensure that the potential impacts of its rules on small entities are properly considered during the rulemaking process. 68 FR 7990. DOE has made its procedures and policies available on the Office of the General Counsel's website ( www.energy.gov/gc/office-general-counsel ).

DOE reviewed this proposed rule under the provisions of the Regulatory Flexibility Act and the procedures and policies published on February 19, 2003. DOE certifies that the proposed rule, if adopted, would not have a significant economic impact on a substantial number of small entities. The factual basis of this certification is set forth in the following paragraphs.

For manufacturers of microwave ovens, the SBA has set a size threshold, which defines those entities classified as “small businesses” for the purposes of the statute. DOE used the SBA's small business size standards to determine whether any small entities would be subject to the requirements of the rule. See 13 CFR part 121. The product covered by this rule is classified under NAICS code 335220, “Major Household Appliance Manufacturing.” In 13 CFR 121.201, the SBA sets a threshold of 1,500 employees or fewer for an entity to be considered as a small business for this category. DOE identified manufacturers using CCD, the California Energy Commission's Modernized Appliance Efficiency Database System (“MAEDbS”), and prior microwave oven rulemakings. DOE used the publicly available information and subscription-based market research tools ( e.g., reports from DB Hoovers ) to identify 37 companies that sell microwave ovens covered by this rulemaking in the United States. Of these 37 companies that sell microwaves in the United States, 19 are private labelers. These private labelers out-source the manufacturing of the microwave ovens to other companies. Therefore, DOE estimates there are 18 original equipment manufacturers (“OEMs”) that manufacture microwave ovens covered by this rulemaking. Of the 18 OEMs, DOE was not able to identify any OEMs of microwave ovens covered by this rulemaking with fewer than 1,500 total employees (including parent companies and subsidiaries), and that are domestically located. Therefore, DOE did not identify any companies that meet SBA's definition of a “small business.”

Based on the initial finding that there are no microwave oven manufacturers who would qualify as small businesses, DOE certifies that the proposed rule, if finalized, would not have a significant economic impact on a substantial number of small entities and has not prepared an IRFA for this rulemaking. DOE will transmit the certification and supporting statement of factual basis to the Chief Counsel for Advocacy of the Small Business Administration for review under 5 U.S.C. 605(b). DOE requests comment on its initial conclusion that there are no small business manufacturers.

C. Review Under the Paperwork Reduction Act

Manufacturers of microwave ovens must certify to DOE that their products comply with any applicable energy conservation standards. In certifying compliance, manufacturers must test their products according to the DOE test procedures for microwave ovens, including any amendments adopted for those test procedures. DOE has established regulations for the certification and recordkeeping requirements for all covered consumer products and commercial product, including microwave ovens. 76 FR 12422 (Mar. 7, 2011); 80 FR 5099 (Jan. 30, 2015). The collection-of-information requirement for the certification and recordkeeping is subject to review and approval by OMB under the Paperwork Reduction Act (“PRA”). This requirement has been approved by OMB under OMB control number 1910-1400. Public reporting burden for the certification is estimated to average 35 hours per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information.

Notwithstanding any other provision of the law, no person is required to respond to, nor shall any person be subject to a penalty for failure to comply with, a collection of information subject to the requirements of the PRA, unless that collection of information displays a currently valid OMB Control Number.

D. Review Under the National Environmental Policy Act of 1969

DOE is analyzing this proposed regulation in accordance with the National Environmental Policy Act of 1969 (“NEPA”) and DOE's NEPA implementing regulations (10 CFR part 1021). DOE's regulations include a categorical exclusion for rulemakings that establish energy conservation standards for consumer products or industrial product. 10 CFR part 1021, subpart D, appendix B5.1. DOE anticipates that this rulemaking qualifies for categorical exclusion B5.1 because it is a rulemaking that establishes energy conservation standards for consumer products or industrial product, none of the exceptions identified in categorical exclusion B5.1(b) apply, no extraordinary circumstances exist that require further environmental analysis, and it otherwise meets the requirements for application of a categorical exclusion. See 10 CFR 1021.410. DOE will complete its NEPA review before issuing the final rule.

E. Review Under Executive Order 13132

E.O. 13132, “Federalism,” 64 FR 43255 (Aug. 10, 1999), imposes certain requirements on Federal agencies formulating and implementing policies or regulations that preempt State law or that have federalism implications. The Executive order requires agencies to examine the constitutional and statutory authority supporting any action that would limit the policymaking discretion of the States and to carefully assess the necessity for such actions. The Executive order also requires agencies to have an accountable process to ensure meaningful and timely input by State and local officials in the development of regulatory policies that have Federalism implications. On March 14, 2000, DOE published a statement of policy describing the intergovernmental consultation process it will follow in the development of such regulations. 65 FR 13735. DOE has examined this proposed rule and has tentatively determined that it would not have a substantial direct effect on the States, on the relationship between the national government and the States, or on the distribution of power and responsibilities among the various levels of government. EPCA governs and prescribes Federal preemption of State regulations as to energy conservation for the microwave ovens that are the subject of this proposed rule. States can petition DOE for exemption from such preemption to the extent, and based on criteria, set forth in EPCA. (42 U.S.C. 6297) Therefore, no further action is required by Executive Order 13132.

F. Review Under Executive Order 12988

With respect to the review of existing regulations and the promulgation of new regulations, section 3(a) of E.O. 12988, “Civil Justice Reform,” imposes on Federal agencies the general duty to adhere to the following requirements: (1) eliminate drafting errors and ambiguity, (2) write regulations to minimize litigation, (3) provide a clear legal standard for affected conduct rather than a general standard, and (4) promote simplification and burden reduction. 61 FR 4729 (Feb. 7, 1996). Regarding the review required by section 3(a), section 3(b) of E.O. 12988 specifically requires that Executive agencies make every reasonable effort to ensure that the regulation: (1) clearly specifies the preemptive effect, if any, (2) clearly specifies any effect on existing Federal law or regulation, (3) provides a clear legal standard for affected conduct while promoting simplification and burden reduction, (4) specifies the retroactive effect, if any, (5) adequately defines key terms, and (6) addresses other important issues affecting clarity and general draftsmanship under any guidelines issued by the Attorney General. Section 3(c) of Executive Order 12988 requires Executive agencies to review regulations in light of applicable standards in section 3(a) and section 3(b) to determine whether they are met or it is unreasonable to meet one or more of them. DOE has completed the required review and determined that, to the extent permitted by law, this proposed rule meets the relevant standards of E.O. 12988.

G. Review Under the Unfunded Mandates Reform Act of 1995

Title II of the Unfunded Mandates Reform Act of 1995 (“UMRA”) requires each Federal agency to assess the effects of Federal regulatory actions on State, local, and Tribal governments and the private sector. Public Law 104-4, section 201 (codified at 2 U.S.C. 1531). For a proposed regulatory action likely to result in a rule that may cause the expenditure by State, local, and Tribal governments, in the aggregate, or by the private sector of $100 million or more in any one year (adjusted annually for inflation), section 202 of UMRA requires a Federal agency to publish a written statement that estimates the resulting costs, benefits, and other effects on the national economy. (2 U.S.C. 1532(a), (b)) The UMRA also requires a Federal agency to develop an effective process to permit timely input by elected officers of State, local, and Tribal governments on a proposed “significant intergovernmental mandate,” and requires an agency plan for giving notice and opportunity for timely input to potentially affected small governments before establishing any requirements that might significantly or uniquely affect them. On March 18, 1997, DOE published a statement of policy on its process for intergovernmental consultation under UMRA. 62 FR 12820. DOE's policy statement is also available at www.energy.gov/sites/prod/files/gcprod/documents/umra_97.pdf .

Although this proposed rule does not contain a Federal intergovernmental mandate, it may require expenditures of $100 million or more in any one year by the private sector. Such expenditures may include: (1) investment in research and development and in capital expenditures by microwave ovens manufacturers in the years between the final rule and the compliance date for the new standards and (2) incremental additional expenditures by consumers to purchase higher-efficiency microwave ovens, starting at the compliance date for the applicable standard.

Section 202 of UMRA authorizes a Federal agency to respond to the content requirements of UMRA in any other statement or analysis that accompanies the proposed rule. (2 U.S.C. 1532(c)) The content requirements of section 202(b) of UMRA relevant to a private sector mandate substantially overlap the economic analysis requirements that apply under section 325(o) of EPCA and Executive Order 12866. The SUPPLEMENTARY INFORMATION section of this SNOPR and the TSD for this proposed rule respond to those requirements.

Under section 205 of UMRA, the Department is obligated to identify and consider a reasonable number of regulatory alternatives before promulgating a rule for which a written statement under section 202 is required. (2 U.S.C. 1535(a)) DOE is required to select from those alternatives the most cost-effective and least burdensome alternative that achieves the objectives of the proposed rule unless DOE publishes an explanation for doing otherwise, or the selection of such an alternative is inconsistent with law. In accordance with the statutory provisions discussed in this document, this proposed rule would amend energy conservation standards for microwave ovens that are designed to achieve the maximum improvement in energy efficiency that DOE has determined to be both technologically feasible and economically justified, as required by 42 U.S.C. 6295(o)(2)(A) and 6295(o)(3)(B). A full discussion of the alternatives considered by DOE is presented in chapter 17 of the TSD for this proposed rule.

H. Review Under the Treasury and General Government Appropriations Act, 1999

Section 654 of the Treasury and General Government Appropriations Act, 1999 (Pub. L. 105-277) requires Federal agencies to issue a Family Policymaking Assessment for any rule that may affect family well-being. This proposal, if finalized as proposed, would not have any impact on the autonomy or integrity of the family as an institution. Accordingly, DOE has concluded that it is not necessary to prepare a Family Policymaking Assessment.

I. Review Under Executive Order 12630

Pursuant to E.O. 12630, “Governmental Actions and Interference with Constitutionally Protected Property Rights,” 53 FR 8859 (Mar. 15, 1988), DOE has determined that this proposed rule, if finalized as proposed, would not result in any takings that might require compensation under the Fifth Amendment to the U.S. Constitution.

J. Review Under the Treasury and General Government Appropriations Act, 2001

Section 515 of the Treasury and General Government Appropriations Act, 2001 (44 U.S.C. 3516 note) provides for Federal agencies to review most disseminations of information to the public under information quality guidelines established by each agency pursuant to general guidelines issued by OMB. OMB's guidelines were published at 67 FR 8452 (Feb. 22, 2002), and DOE's guidelines were published at 67 FR 62446 (Oct. 7, 2002). Pursuant to OMB Memorandum M-19-15, Improving Implementation of the Information Quality Act (April 24, 2019), DOE published updated guidelines which are available at www.energy.gov/sites/prod/files/2019/12/f70/DOE%20Final%20Updated%20IQA%20Guidelines%20Dec%202019.pdf . DOE has reviewed this SNOPR under the OMB and DOE guidelines and has concluded that it is consistent with applicable policies in those guidelines.

K. Review Under Executive Order 13211

E.O. 13211, “Actions Concerning Regulations That Significantly Affect Energy Supply, Distribution, or Use,” 66 FR 28355 (May 22, 2001), requires Federal agencies to prepare and submit to OIRA at OMB, a Statement of Energy Effects for any proposed significant energy action. A “significant energy action” is defined as any action by an agency that promulgates or is expected to lead to promulgation of a final rule, and that (1) is a significant regulatory action under Executive Order 12866, or any successor order; and (2) is likely to have a significant adverse effect on the supply, distribution, or use of energy, or (3) is designated by the Administrator of OIRA as a significant energy action. For any proposed significant energy action, the agency must give a detailed statement of any adverse effects on energy supply, distribution, or use should the proposal be implemented, and of reasonable alternatives to the action and their expected benefits on energy supply, distribution, and use.

DOE has tentatively concluded that this regulatory action, which proposes amended energy conservation standards for microwave ovens, is not a significant energy action because the proposed standards are not likely to have a significant adverse effect on the supply, distribution, or use of energy, nor has it been designated as such by the Administrator at OIRA. Accordingly, DOE has not prepared a Statement of Energy Effects on this proposed rule.

L. Information Quality

On December 16, 2004, OMB, in consultation with the Office of Science and Technology Policy (“OSTP”), issued its Final Information Quality Bulletin for Peer Review (“the Bulletin”). 70 FR 2664 (Jan. 14, 2005). The Bulletin establishes that certain scientific information shall be peer reviewed by qualified specialists before it is disseminated by the Federal Government, including influential scientific information related to agency regulatory actions. The purpose of the bulletin is to enhance the quality and credibility of the Government's scientific information. Under the Bulletin, the energy conservation standards rulemaking analyses are “influential scientific information,” which the Bulletin defines as “scientific information the agency reasonably can determine will have, or does have, a clear and substantial impact on important public policies or private sector decisions.” 70 FR 2664, 2667.

In response to OMB's Bulletin, DOE conducted formal peer reviews of the energy conservation standards development process and the analyses that are typically used and has prepared a report describing that peer review. Generation of this report involved a rigorous, formal, and documented evaluation using objective criteria and qualified and independent reviewers to make a judgment as to the technical/scientific/business merit, the actual or anticipated results, and the productivity and management effectiveness of programs and/or projects. DOE has determined that the peer-reviewed analytical process continues to reflect current practice, and the Department followed that process for developing energy conservation standards in the case of the present rulemaking. Because available data, models, and technological understanding have changed since 2007, DOE has engaged with the National Academy of Sciences to review DOE's analytical methodologies to ascertain whether modifications are needed to improve the Department's analyses. Further evaluation under that process is expected to continue in 2022.

VII. Public Participation

DOE invites public participation in this process through participation in the submission of written comments and information. After the closing of the comment period, DOE will consider all timely-submitted comments and additional information obtained from interested parties, as well as information obtained through further analyses.

A. Submission of Comments

DOE will accept comments, data, and information regarding this proposed rule no later than the date provided in the DATES section at the beginning of this proposed rule. Interested parties may submit comments, data, and other information using any of the methods described in the ADDRESSES section at the beginning of this document.

Submitting comments via www.regulations.gov. The 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 itself 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. Otherwise, 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 www.regulations.gov information for which disclosure is restricted by statute, such as trade secrets and commercial or financial information (hereinafter referred to as Confidential Business Information (“CBI”)). Comments submitted through 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 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 www.regulations.gov provides after you have successfully uploaded your comment.

Submitting comments via email. Comments and documents submitted via email also will be posted to 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 in 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. No telefacsimiles (“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, that are written in English, and that are 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. Pursuant 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 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.

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).

B. Issues on Which DOE Seeks Comment

Although DOE welcomes comments on any aspect of this proposal, DOE is particularly interested in receiving comments and views of interested parties concerning the following issues:

(1) DOE requests feedback on its tentative conclusion that reducing the standby power consumption of microwave ovens would require full redesigns of control boards, and that while such redesigns would not result in increased MPCs, manufacturers would incur significant one-time conversation costs.

(2) DOE requests feedback on the efficiency levels analyzed for each product class in this proposal.

(3) DOE requests comment on its tentative conclusion that improvements in standby performance are the result of system-level control board redesigns that require conversion costs but would not result in increases to the manufacturing product cost compared to a control board at baseline.

(4) DOE requests comment on the incremental MPCs from the SNOPR engineering analysis.

(5) DOE requests comment on the estimated increased manufacturer markups and incremental MSPs that result from the analyed energy conservation standards from the SNOPR engineering analysis.

(6) DOE requests feedback on its approach to projecting the efficiency distribution in 2026.

(7) DOE requests comment on its methodology for estimating shipments. DOE also requests comment on its approach to estimate the market share for built-in and over-the-range convection microwave ovens.

(8) DOE requests comment on its initial findings that there are not any manufacturers of microwave ovens covered by this rulemaking that meet SBA's definition of a “small business.”

Additionally, DOE welcomes comments on other issues relevant to the conduct of this rulemaking that may not specifically be identified in this document.

VIII. Approval of the Office of the Secretary

The Secretary of Energy has approved publication of this supplemental notice of proposed rulemaking and request for comment.

List of Subjects in 10 CFR Part 430

• Administrative practice and procedure
• Confidential business information
• Energy conservation
• Household appliances
• Imports
• Intergovernmental relations
• Small businesses

Signing Authority

This document of the Department of Energy was signed on August 14, 2022, by Kelly J. Speakes-Backman, Principal Deputy Assistant Secretary, Energy Efficiency and Renewable Energy, pursuant to delegated authority from the Secretary of Energy. That document with the original signature and date is maintained by DOE. For administrative purposes only, and in compliance with requirements of the Office of the Federal Register, the undersigned DOE Federal Register Liaison Officer has been authorized to sign and submit the document in electronic format for publication, as an official document of the Department of Energy. This administrative process in no way alters the legal effect of this document upon publication in the Federal Register .

For the reasons set forth in the preamble, DOE proposes to amend part 430 of chapter II, subchapter D, of title 10 of the Code of Federal Regulations, as set forth below:

PART 430—ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS

1. The authority citation for part 430 continues to read as follows:

Authority: 42 U.S.C. 6291-6309; 28 U.S.C. 2461 note.

2. Section 430.32 is amended by revising paragraph (j)(3) and adding paragraph (4) to read as follows: