Improving the Representation of Climate Risks in Long-Term Electricity Systems Planning: a Critical Review

Purpose of Review Electricity systems face substantial climate risks which are escalating due to electrification, renewable energy intermittency, population changes, and the intensifying impacts of climate change such as extreme temperatures and weather-induced infrastructure damage. This critical r...

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Veröffentlicht in:	Current sustainable/renewable energy reports. 2023-12, Vol.10 (4), p.206-217
Hauptverfasser:	Doss-Gollin, James, Amonkar, Yash, Schmeltzer, Katlyn, Cohan, Daniel
Format:	Artikel
Sprache:	eng
Schlagworte:	Climate change Economics and Management Electricity Energy Energy Policy Energy Storage Environmental impact Environmental risk Environmental Science and Engineering Extreme weather Meteorological data Population changes Renewable and Green Energy Renewable energy Systems planning Topical Collection on Grid Resilience under Climate Change
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creator	Doss-Gollin, James Amonkar, Yash Schmeltzer, Katlyn Cohan, Daniel
description	Purpose of Review Electricity systems face substantial climate risks which are escalating due to electrification, renewable energy intermittency, population changes, and the intensifying impacts of climate change such as extreme temperatures and weather-induced infrastructure damage. This critical review investigates climate risks to the electricity sector and scrutinizes the methodologies used to represent climate risk in long-term electricity system planning studies. Recent Findings Climate risks to electricity systems are driven by extreme weather, average weather, technology, and other social and technological factors. All are expected to evolve in the future. Future climate risks to electricity systems depend on interactions between each, and thus assessing future climate risks to electricity systems requires exploring a wide range of possible futures. Summary Many studies rely on weather data and socio-economic scenarios that are inadequate to fully characterize climate risks to present and future electricity systems. We advocate for more holistic assessments that incorporate comprehensive weather data, acknowledge dynamic multi-sector interactions, and employ adaptive and robust methodologies.
doi_str_mv	10.1007/s40518-023-00224-3
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This critical review investigates climate risks to the electricity sector and scrutinizes the methodologies used to represent climate risk in long-term electricity system planning studies. Recent Findings Climate risks to electricity systems are driven by extreme weather, average weather, technology, and other social and technological factors. All are expected to evolve in the future. Future climate risks to electricity systems depend on interactions between each, and thus assessing future climate risks to electricity systems requires exploring a wide range of possible futures. Summary Many studies rely on weather data and socio-economic scenarios that are inadequate to fully characterize climate risks to present and future electricity systems. 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subjects	Climate change Economics and Management Electricity Energy Energy Policy Energy Storage Environmental impact Environmental risk Environmental Science and Engineering Extreme weather Meteorological data Population changes Renewable and Green Energy Renewable energy Systems planning Topical Collection on Grid Resilience under Climate Change
title	Improving the Representation of Climate Risks in Long-Term Electricity Systems Planning: a Critical Review
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