2014
DOI: 10.1016/j.rser.2014.04.029
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Reduction of cooling water consumption due to photovoltaic and wind electricity feed-in

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Cited by 15 publications
(7 citation statements)
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“…Total energy consumption in the United States is flattening, while the domestic energy supply is expected to continue to grow . On the supply side, both the US fuel mix and the technologies used to supply energy to consumers are changing, most significantly via more deployment of renewable electricity technologies; more unconventional oil and natural gas extraction; tighter environmental controls in the power sector, particularly affecting coal ,, 1,24,25 ; and diversification of fuel sources in the transportation sector. Consequently, one of the major policy concerns of the energy–water nexus is the effect of this dynamic energy system on volumetric water resource demands.…”
Section: Introductionmentioning
confidence: 99%
“…Total energy consumption in the United States is flattening, while the domestic energy supply is expected to continue to grow . On the supply side, both the US fuel mix and the technologies used to supply energy to consumers are changing, most significantly via more deployment of renewable electricity technologies; more unconventional oil and natural gas extraction; tighter environmental controls in the power sector, particularly affecting coal ,, 1,24,25 ; and diversification of fuel sources in the transportation sector. Consequently, one of the major policy concerns of the energy–water nexus is the effect of this dynamic energy system on volumetric water resource demands.…”
Section: Introductionmentioning
confidence: 99%
“…Water scarcity is a growing challenge for the power industry globally. [1][2][3][4] Although the large-scale dissemination of water-lean renewable electricity technologies (particularly wind turbines and solar photovoltaics) demonstrates the potential to decrease the power sector"s reliance on scare water resources [5,6] , water-intensive thermoelectric power generation sources will still play a dominant role in the global electricity mix for decades. Water stress has already become a constraint on power reliability and capacity expansion, especially in countries that rely heavily on thermal power, such as the U.S. and China.…”
Section: Introductionmentioning
confidence: 99%
“…With the exception of hydropower, which requires water to move hydroelectric turbines, the majority of the water withdrawn for power generation is used to condense steam exiting turbines at thermoelectric power facilities. , Thermoelectric power generation represented nearly 40% of annual U.S. freshwater withdrawals in 2010. , Of the volume of water withdrawn for power generation, approximately 3% was consumed . Although water might also be also used for turbine inlet cooling, handling ash, washing, wastewater reclamation, and flue gas desulferization, power plant cooling is typically the largest water requirement for thermoelectric generators. , While projections of the water use of the electricity sector in the future exist, large regulatory, social, and technological uncertainty make it difficult to anticipate future changes, especially over the long-term. ,, However, these changes will be important for water managers, electric power utilities, and policy makers to understand moving forward.…”
Section: Introductionmentioning
confidence: 99%