Action | Reduce and Cap Carbon Dioxide from Fossil Fuel Fired Electric Power Generating Facilities (Rev. C17) |
Stage | Proposed |
Comment Period | Ended on 4/9/2018 |
Dear Ms. Sabasteanski,
The American Council for an Energy-Efficient Economy (ACEEE) welcomes this opportunity to provide comments to the Virginia Department of Environmental Quality (DEQ) on the above-referenced proposed action on the development of regulations to reduce and cap carbon dioxide (CO2) from the electric power sector (“Proposed Action”). ACEEE is a nonprofit research organization based in Washington, D.C. that conducts research and analysis on energy efficiency. ACEEE is one of the leading groups working on energy efficiency issues in the United States at the national, state, and local levels. We have been active on energy efficiency issues for more than three decades. In Virginia, we developed an energy efficiency potential study in 2008 covering electricity savings opportunities, and since then have provided technical assistance on energy efficiency topics to various stakeholders.[1]
ACEEE’s comments herein seek to address the agency’s request for comments and specific ideas to be considered in the development of a multi-state, market-based carbon dioxide (CO2) trading program. Specifically, we recommend the following:
Allocation Methodology
Energy efficiency is an important strategy to reduce emissions in the electric power sector. As it lowers electricity use, energy efficiency avoids emissions of CO2 and other harmful pollutants, often at lowest cost.[2] ACEEE estimates that by implementing a suite of energy efficiency programs and policies, the Commonwealth could exceed the emissions reductions required through the Proposed Action in 2030.[3] For example, regularly updating building energy codes and pursuing other efficiency program savings of at least 1% per year—either through ratepayer-funded programs, state-run programs, or some combination of the two—could result in cumulative reductions of over 80 million tons of CO2. In an allowance trading program, CO2 reductions from energy efficiency will help electric generating units (EGUs) meet the Commonwealth’s CO2 emissions limit by reducing electricity production. However, this does not mean that energy efficiency deployment will increase, even when it is more cost-effective than other CO2 reduction options. Current market and regulatory barriers to investment in energy efficiency can hinder its use as a compliance strategy in a trading program.[4] DEQ should consider using methods for allowance distribution to help address these barriers to energy efficiency deployment.[5]
Set-asides allow for a portion of allowances to be budgeted for certain programs, such as energy efficiency. Typically, a set-aside is a small portion of a total cap of allowances, which means that energy efficiency is treated as a resource on the margin. This is not consistent with the Commonwealth’s energy efficiency potential, nor does it make economic sense. The financial incentive in a market-based regulation should drive emission reductions by the lowest-cost means within the regulated system. In this Proposed Action, the lowest-cost option states should turn to is energy efficiency. Instead of a set-aside, an allowance approach could preferentially award allowances to energy efficiency projects and programs. Such an approach could allocate allowances on an updating output basis according to kWh generated or saved. Ideally, such an approach would award allowances to zero-emission savings and generation (i.e., energy efficiency and renewable energy) first. The remaining allowances could be awarded to fossil-fueled electric generators in a second round of allocations.
An updating output-based allocation provides a transparent and predictable price signal, and rewards measures that deliver lasting CO2 reductions.[6]
Energy Efficiency in the Set-Aside Allowance Pool
As ACEEE has maintained in the past, energy efficiency provides emission reductions quickly and at a lower cost to ratepayers than any other CO2 compliance option by reducing the need for central power generation. State energy efficiency policies and projects—including those that set energy savings targets, reduce business and industrial energy use, and deliver residential energy savings—can be the quickest and cheapest means to reduce generation from fossil fuel-fired power plants. Energy efficiency is a lowest-cost option for states to reduce CO2 emissions while supplying affordable, reliable electricity to their residents and businesses. Research by the Lawrence Berkeley National Laboratory and ACEEE shows that at a range of about 2 to 5 cents per kilowatt-hour (kWh) and an average of 2.8 cents per kWh, energy efficiency programs cost two to three times less than generating power from traditional sources.[7] States that invest in energy efficiency can reduce emissions at a lower cost than is possible through other options.
Moreover, energy efficiency brings significant ancillary benefits, such as improving air quality, improving inhabitant comfort, and saving consumers money. Additionally, energy efficiency boosts local economies by creating diverse, high-quality jobs across the construction, engineering, financial, environmental, manufacturing, and industrial supply chains.[8]
The experience of other Regional Greenhouse Gas Initiative (RGGI) states shows us that allowance revenues invested in energy efficiency reduce energy bills for households and businesses. In 2015, RGGI states invested 64% of allowance revenues on energy efficiency, amounting to 60% of cumulative investments. Programs funded by these investments are expected to return more than $1.3 billion in lifetime energy bill savings to 5,700 businesses and 141,000 participating households.[9] Further, a recent report demonstrates how energy efficiency investments through RGGI contributed to substantially reducing the number of premature deaths, heart attacks, and respiratory illnesses in the Northeast since 2009.[10]
Under the current Proposed Action, DEQ proposes a set-aside totaling 5% of the conditional allowances for the Virginia Department of Mines, Minerals, and Energy (DMME) or its designee, to assist in the abatement and control of CO2 emissions.
Given the multiple benefits and low-cost CO2 reductions energy efficiency provides, we recommend that the entirety of the set-asides revenues be allocated to energy efficiency projects.
Expanding the Set-Aside for Energy Efficiency
While ratepayer-funded programs will ramp-up to serve residential and commercial customers in Virginia over the next ten years, there is still a lot of untapped potential for non-utility energy efficiency programs.[11] The current set-aside amount of 5% does not reflect the level of potential investment in energy efficiency that the Commonwealth could achieve.
We recommend a doubling of this set-aside to 10% in order to provide a more robust financing stream for energy efficiency projects.
Energy efficiency is the lowest-cost option to reduce CO2 emissions, and the 5% set-aside cap limits the amount of cost-effective reductions that could be achieved.
While the market decides the price of allowances, the scenarios in Table 1 are meant to represent a range of prices using available allowances in the current Proposed Action and prior RGGI auction clearing prices as a basis. As shown, increasing the set-aside to 10% would lead to a doubling of the investment in energy efficiency, allowing for more cost-effective reductions in CO2 emissions. Further, as Virginia Advanced Energy Economy demonstrates in comments on this Proposed Action, modeling indicates that increasing the set-aside would not impact rates. Implementing energy efficiency measures also reduces overall customer bills, helping to alleviate any potential rate increases.
Doubling the set-aside would allow for increased investment in energy efficiency programs as described in the following section.
Table 1. Annual Dollar Value of Set-aside Scenarios
|
5% Set-aside |
10% Set-aside |
Scenario 1: $3.8 per ton allowance price |
$6.3 million |
$12.5 million |
Scenario 2: $5 per ton allowance price |
$8.3 million |
$16.5 million |
Scenario 3: $15 per ton allowance price |
$24.8 million |
$49.5 million |
Eligible Projects under Set-Aside Allowance Pool
We recommend that DMME use the set-aside to invest in energy efficiency projects that save energy and reduce utility costs for public and private sectors alike.
The following are some examples of projects that could be eligible to receive revenues under the set-aside:
Conclusion
Energy efficiency is often the lowest-cost option to meet CO2 reduction goals, and deployment should be encouraged through allowance distribution under a trading program. As DEQ develops a regulation to limit carbon emissions, ACEEE is available as a resource to discuss any of the issues raised herein or others DEQ may be considering regarding the treatment of energy efficiency. We have attempted to keep our comments succinct, but welcome the opportunity to provide further information.
Sincerely,
Annie Gilleo , Sr. Manager, State Policy, ACEEE
Cassandra Kubes, Sr. Research Analyst, Health & Environment, ACEEE
[1] ACEEE. 20008. Energizing Virginia: Efficiency First. aceee.org/research-report/e085.
[2] ACEEE 2016. How Much Does Energy Efficiency Cost? aceee.org/sites/default/files/cost-of-ee.pdf.
[3] ACEEE 2016. State and Utility Pollution Reduction Calculator Version 2 (SUPR 2). aceee.org/research-report/e1601.
[4] ACEEE 2013. Overcoming Market Barriers and Using Market Forces to Advance Energy Efficiency. aceee.org/research-report/e136.
[5] See a description of allocation methodologies in ACEEE’s Comments to Virginia Department of Environmental Quality on Allowance Distribution Under a Market-based CO2 Trading Program. aceee.org/regulatory-filing/ed-noira-0717.
[6] Several states participating in the NOx SIP Call use output-based allocation. In addition, see AJW’s Direct Allocation approach (ajw-inc.com/mass-based-paper/) and AEE’s Performance-based Allocation approach (info.aee.net/allocation-for-clean-power-plan-compliance).
[7] Megan A. Billingsley, Ian M. Hoffman, Elizabeth Stuart, Steven R. Schiller, Charles A. Goldman, and Kristina LaCommare, The Program Administrator Cost of Saved Energy for Utility Customer-Funded Energy Efficiency Programs, Lawrence Berkeley National Laboratory (2014), emp.lbl.gov/sites/all/files/lbnl-6595e.pdf. See also Maggie Molina, The Best Value for America’s Energy Dollar: A National Review of the Cost of Utility Energy Efficiency Programs, Washington, DC: ACEEE, 2014, aceee.org/research-report/u1402.
[8] aceee.org/sites/default/files/ee-jobs-money-web.pdf
[9] The Regional Greenhouse Gas Initiative (RGGI). Investment of RGGI Proceeds in 2015. www.rggi.org/sites/default/files/Uploads/Proceeds/RGGI_Proceeds_Report_2015.pdf.
[10] Abt Associates. 2017. Analysis of the Public Health Impacts of the Regional Greenhouse Gas Initiative, 2009–2014. http://abtassociates.com/RGGI.
[11] ACEEE. 20008. Energizing Virginia: Efficiency First. aceee.org/research-report/e085.
[12] Texas A&M. “Energy Systems Laboratory.” esl.tamu.edu/.
[13] University of Louisville. “Kentucky Pollution Prevention Center.” kppc.org/.
[14] West Virginia University. “Industries of the Future at West Virginia University.” iofwv.nrcce.wvu.edu/.
[15] Department of Energy. “Colorado Industrial Energy Challenge.” energy.gov/eere/amo/colorado-industrial-energy-challenge.
[16] The Regional Greenhouse Gas Initiative (RGGI). Investment of RGGI Proceeds in 2015. www.rggi.org/sites/default/files/Uploads/Proceeds/RGGI_Proceeds_Report_2015.pdf.
[17] National Association of State Energy Officials. “State Energy Financing Programs.” www.naseo.org/state-energy-financing-programs.
[18] Virginia Energy Efficiency Roadmap, report forthcoming. A description of the project purpose can be found here: www.dmme.virginia.gov/de/LinkDocuments/GEC/3VA_EE_Roadmap_FactSheet.pdf.