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Emissions impacts of future battery storage deployment on regional power systems

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  • Bistline, John E.T.
  • Young, David T.

Abstract

Battery storage technologies have attracted attention from policymakers for their potential to reduce electric sector emissions by enabling greater wind and solar penetration. Yet existing studies indicate that adding energy storage actually increases emissions. The difference may be explained by the absence in the previous literature of “investment effects” – changes in deployment of other generation technologies after storage is deployed. Our paper tests this hypothesis by evaluating battery-storage-induced emissions changes using a model that accounts for both long-run investment and dispatch effects simultaneously across regions in the United States, which can be used to separate the relative magnitudes of these two effects. Model results indicate that the investment effect dominates the dispatch effect under a range of sensitivities. We find that emissions may increase or decrease with battery storage, depending on policy and market assumptions, with reductions more likely in environments where wind and solar are more economically competitive relative to natural-gas-fired generation. These results suggest that existing studies that only account for operational impacts likely underestimate potential emissions changes from battery storage deployment.

Suggested Citation

  • Bistline, John E.T. & Young, David T., 2020. "Emissions impacts of future battery storage deployment on regional power systems," Applied Energy, Elsevier, vol. 264(C).
    • Handle: RePEc:eee:appene:v:264:y:2020:i:c:s0306261920301902
    DOI: 10.1016/j.apenergy.2020.114678
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    Cited by:

    1. Li, Mo & Yang, Yi & Smith, Timothy M. & Wilson, Elizabeth J., 2020. "Wind can reduce storage-induced emissions at grid scales," Applied Energy, Elsevier, vol. 276(C).
    2. Bistline, John E.T. & Merrick, James H., 2020. "Parameterizing open-source energy models: Statistical learning to estimate unknown power plant attributes," Applied Energy, Elsevier, vol. 269(C).
    3. Pepa Ambrosio-Albalá & Catherine S. E. Bale & Andrew J. Pimm & Peter G. Taylor, 2020. "What Makes Decentralised Energy Storage Schemes Successful? An Assessment Incorporating Stakeholder Perspectives," Energies, MDPI, vol. 13(24), pages 1-22, December.
    4. Bistline, John E.T. & Brown, Maxwell & Siddiqui, Sauleh A. & Vaillancourt, Kathleen, 2020. "Electric sector impacts of renewable policy coordination: A multi-model study of the North American energy system," Energy Policy, Elsevier, vol. 145(C).
    5. James H. Merrick & John E. T. Bistline & Geoffrey J. Blanford, 2021. "On representation of energy storage in electricity planning models," Papers 2105.03707, arXiv.org, revised May 2021.
    6. Lavin, Luke & Apt, Jay, 2021. "The importance of peak pricing in realizing system benefits from distributed storage," Energy Policy, Elsevier, vol. 157(C).
    7. Bistline, John & Blanford, Geoffrey & Mai, Trieu & Merrick, James, 2021. "Modeling variable renewable energy and storage in the power sector," Energy Policy, Elsevier, vol. 156(C).
    8. Long Wang, 2023. "Merchant Energy Storage Investment Analysis Considering Multi-Energy Integration," Energies, MDPI, vol. 16(12), pages 1-19, June.
    9. Jafari, Mehdi & Botterud, Audun & Sakti, Apurba, 2022. "Decarbonizing power systems: A critical review of the role of energy storage," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    10. Ting Zhang & Shuaishuai Cao & Lingying Pan & Chenyu Zhou, 2020. "A Policy Effect Analysis of China’s Energy Storage Development Based on a Multi-Agent Evolutionary Game Model," Energies, MDPI, vol. 13(23), pages 1-35, November.
    11. Goteti, Naga Srujana & Hittinger, Eric & Sergi, Brian & Lima Azevedo, Inês, 2021. "How does new energy storage affect the operation and revenue of existing generation?," Applied Energy, Elsevier, vol. 285(C).

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