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Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States

[Image: see text] The United States has begun unprecedented efforts to decarbonize all sectors of the economy by 2050, requiring rapid deployment of variable renewable energy technologies and grid-scale energy storage. Pumped storage hydropower (PSH) is an established technology capable of providing...

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Autores principales: Simon, Timothy R., Inman, Daniel, Hanes, Rebecca, Avery, Gregory, Hettinger, Dylan, Heath, Garvin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10448748/
https://www.ncbi.nlm.nih.gov/pubmed/37566763
http://dx.doi.org/10.1021/acs.est.2c09189
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author Simon, Timothy R.
Inman, Daniel
Hanes, Rebecca
Avery, Gregory
Hettinger, Dylan
Heath, Garvin
author_facet Simon, Timothy R.
Inman, Daniel
Hanes, Rebecca
Avery, Gregory
Hettinger, Dylan
Heath, Garvin
author_sort Simon, Timothy R.
collection PubMed
description [Image: see text] The United States has begun unprecedented efforts to decarbonize all sectors of the economy by 2050, requiring rapid deployment of variable renewable energy technologies and grid-scale energy storage. Pumped storage hydropower (PSH) is an established technology capable of providing grid-scale energy storage and grid resilience. There is limited information about the life cycle of greenhouse gas emissions associated with state-of-the-industry PSH technologies. The objective of this study is to perform a full life cycle assessment of new closed-loop PSH in the United States and assess the global warming potential (GWP) attributed to 1 kWh of stored electricity delivered to the nearest grid substation connection point. For this study, we use publicly available data from PSH facilities that are in the preliminary permitting phase. The modeling boundary is from facility construction to decommissioning. Our results estimate that the GWP of closed-loop PSH in the United States ranges from 58 to 530 g CO(2)e kWh(–1), with the stored electricity grid mix having the largest impact, followed by concrete used in facility construction. Additionally, PSH site characteristics can have a substantive impact on GWP, with brownfield sites resulting in a 20% lower GWP compared to greenfield sites. Our results suggest that closed-loop PSH offers climate benefits over other energy storage technologies.
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spelling pubmed-104487482023-08-25 Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States Simon, Timothy R. Inman, Daniel Hanes, Rebecca Avery, Gregory Hettinger, Dylan Heath, Garvin Environ Sci Technol [Image: see text] The United States has begun unprecedented efforts to decarbonize all sectors of the economy by 2050, requiring rapid deployment of variable renewable energy technologies and grid-scale energy storage. Pumped storage hydropower (PSH) is an established technology capable of providing grid-scale energy storage and grid resilience. There is limited information about the life cycle of greenhouse gas emissions associated with state-of-the-industry PSH technologies. The objective of this study is to perform a full life cycle assessment of new closed-loop PSH in the United States and assess the global warming potential (GWP) attributed to 1 kWh of stored electricity delivered to the nearest grid substation connection point. For this study, we use publicly available data from PSH facilities that are in the preliminary permitting phase. The modeling boundary is from facility construction to decommissioning. Our results estimate that the GWP of closed-loop PSH in the United States ranges from 58 to 530 g CO(2)e kWh(–1), with the stored electricity grid mix having the largest impact, followed by concrete used in facility construction. Additionally, PSH site characteristics can have a substantive impact on GWP, with brownfield sites resulting in a 20% lower GWP compared to greenfield sites. Our results suggest that closed-loop PSH offers climate benefits over other energy storage technologies. American Chemical Society 2023-08-11 /pmc/articles/PMC10448748/ /pubmed/37566763 http://dx.doi.org/10.1021/acs.est.2c09189 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Simon, Timothy R.
Inman, Daniel
Hanes, Rebecca
Avery, Gregory
Hettinger, Dylan
Heath, Garvin
Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title_full Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title_fullStr Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title_full_unstemmed Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title_short Life Cycle Assessment of Closed-Loop Pumped Storage Hydropower in the United States
title_sort life cycle assessment of closed-loop pumped storage hydropower in the united states
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10448748/
https://www.ncbi.nlm.nih.gov/pubmed/37566763
http://dx.doi.org/10.1021/acs.est.2c09189
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