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  • Policy Shifts in a Pandemic Cover

    Policy Shifts in a Pandemic

    Assessing the Environmental Laws and Policies Weakened in Response to Covid-19

    The Covid-19 pandemic has led federal, state, and municipal policymakers to adopt a number of measures that suspended, delayed, or relaxed a variety of environmental safeguards. Our report analyzes these pandemic-related policy shifts and their impacts on public health and the environment. We also provide guidance on how agencies can increase transparency about these actions, counteract detrimental effects, and preemptively create guidelines to improve responses in a future emergency.

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  • An Evaluation of the Benefit-Cost Analysis in the 2020 Steam Electric Reconsideration Rule Cover

    An Evaluation of the Benefit-Cost Analysis in the 2020 Steam Electric Reconsideration Rule

    85 Fed. Reg. 64,650 (Oct. 13, 2020)

    In its analysis of the 2020 Steam Electric Reconsideration Rule, the Environmental Protection Agency failed to adequately provide quantitative estimates for numerous harms from steam electric power plants' wastewater streams and drew conclusions about the rule’s impacts that are undermined by a fair assessment of unquantified impacts. Our report identifies flaws in the 2020 Rule and details changes the agency can make to significantly improve its benefit-cost analysis.

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  • Resource Adequacy in a Decarbonized Future Cover

    Resource Adequacy in a Decarbonized Future

    Wholesale Market Design Options and Considerations

    This report examines the relationship between resource adequacy and renewable energy. It explores the impacts of renewables on the functioning of resource adequacy mechanisms and how different resource adequacy approaches affect renewable investment, finding that current approaches—with certain adjustments—are capable of ensuring that the lights stay on during a future that is powered largely by renewable energy.

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  • Comments on New York PSC’s Initial Report on Power Grid Study

    The New York Public Service Commission (PSC) requested input on its initial report on the New York Power Grid Study. Our comments recommend steps the PSC can take to not only achieve emissions reduction goals, but also give appropriate priority to environmental justice.

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  • (Not So) Clean Peak Energy Standards Cover

    (Not So) Clean Peak Energy Standards

    Growth in electricity storage has the potential to increase emissions from power generation. Concerns about this outcome are currently prompting many policies to address the issue. We study a particularly popular policy proposal called the “Clean Peak Standard” that incentivizes storage to discharge during periods of high electricity demand. The stated goal of the policy is to shift storage discharge to offset production from generators with high pollution emissions. We show that the policy is largely ineffective at achieving this emissions reduction goal. The policy reinforces existing incentives faced by storage operators, so it does not have a strong effect on discharging behavior. It is also unable to capture high-frequency changes in marginal operating emissions rates. Alternative policies, such as a carbon tax, are more effective at reducing the emissions increase caused by storage. Policymakers considering Clean Peak-style policies should instead consider these alternative policies.

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  • Comments to ONRR on Royalty Rates for Oil and Gas Leasing

    A new rulemaking by the Office of Natural Resources Revenue (ONRR) delays the effective date of its previously-finalized Valuation Reform and Civil Penalty Rule and seeks input on several questions. We submitted comments focusing primarily on a question about the role of climate impacts in setting royalty policy.

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  • Comments to DOE on Future Energy Conservation Rulemakings

    The Department of Energy called for input on its prioritization process for energy conservation rulemakings. We submitted comments detailing immediate, mid-term, and long-term actions that DOE can take to more efficiently set energy conservation standards and deliver greater benefits to consumers, public health, and the environment.

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  • Retail Electricity Tariff Design, Distributed Energy Resources, and Emissions Cover

    Retail Electricity Tariff Design, Distributed Energy Resources, and Emissions

    In this paper, we use an economics-engineering simulation model to analyze how different types of residential retail tariff designs such as time-of-use, critical-peak pricing, and fully cost-reflective tariffs affect DER deployment and use, and, hence, the resulting emissions of CO2, SO2, and NOx in the Commonwealth Edison service territory in Chicago. Our results show that in the short term retail tariffs can help or hinder environmental goals through their effect on DER deployment and consumption behavior, emphasizing the importance of pairing DER policy initiatives with decarbonization efforts at the wholesale electricity level.

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  • The Role of Electricity Tariff Design in Distributed Energy Resource Deployment Cover

    The Role of Electricity Tariff Design in Distributed Energy Resource Deployment

    This paper simulates the effect of more advanced residential electricity tariffs on household adoption of distributed energy resources (DERs). We find that tariffs that are more time variant lead to greater reductions in coincident peak demands than flat volumetric tariffs, both from load shifting as well as from adoption of DERs. Regarding the effect of electricity tariff design on DER investments, we find that at current DER purchase costs investments in rooftop photovoltaic (PV), batteries and natural gas distributed generators are not privately optimal under any of our tariff design scenarios based on current cost levels for electricity and gas in the Chicago study area.

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  • Rate Design and Distributed Energy Resource Integration: Impacts on the Environment and Distribution System Costs Cover

    Rate Design and Distributed Energy Resource Integration: Impacts on the Environment and Distribution System Costs

    This project looks at the effects of different retail tariff designs on the deployment of distributed energy resource (DERs), and their subsequent effect on pollution, electric system costs, and customer bills. We use smart-meter data and techno-economic models to simulate the effects of more granular and cost-reflective tariff designs on DER investment and use.

    This project is supported by the Alfred P. Sloan Foundation, and is a collaboration between the Institute for Policy Integrity, Environmental Defense Fund, and the MIT Energy Initiative.

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