Add to ORKGClimate change has the potential to exacerbate water availability concerns for thermal power plant cooling, which is responsible for 41 % of U.S. water withdrawals. This analysis describes an initial link between climate, water, and electricity systems using the National Renewable Energy Laboratory (NREL) Regional Energy Deployment System (ReEDS) electricity system capacity expansion model. Average surface water projections from Coupled Model Intercomparison Project 3 (CMIP3) data are applied to surface water rights available to new generating capacity in ReEDS, and electric sector growth is compared with and without climate-influenced water rights. The mean climate projection has only a small impact on national or regional capacity growth ...
Climate change poses a serious threat to human welfare. There is now unequivocal scientific evidence...
Quantifying water implications of energy transitions is important for assessing long-term freshwater...
Large and reliable volumes of water are required to cool thermal power plants. Yet across the world ...
Electricity and water systems are inextricably linked through water demands for energy generation, a...
Thermoelectric power plants contribute 90 percent of the electricity generated in the United States....
Thermoelectric power plants with once-through cooling systems generated 35% (∼300 GW) of U.S. electr...
textThe energy-water nexus represents a complex system of correlated resources, with particular rele...
Climate change is raising the world’s temperature, thereby causing residents to use more water for u...
The water-energy nexus refers to the relationship between how much water is used to generate and tra...
Climate change will impact water supplies, exacerbating existing pressures on water resources caused...
Water is at the center of a complex and dynamic system involving climatic, biological, hydrological,...
Water supply constraints can significantly restrict electric power generation, and such constraints ...
Worldwide, 98% of total electricity is currently produced by thermoelectric power and hydropower. Cl...
Worldwide, 98% of total electricity is currently produced by thermoelectric power and hydropower. Cl...
Supplemental Data for Dyreson et al. 2021, Earth's Future Publication Title: The Role of Regiona...
Climate change poses a serious threat to human welfare. There is now unequivocal scientific evidence...
Quantifying water implications of energy transitions is important for assessing long-term freshwater...
Large and reliable volumes of water are required to cool thermal power plants. Yet across the world ...
Electricity and water systems are inextricably linked through water demands for energy generation, a...
Thermoelectric power plants contribute 90 percent of the electricity generated in the United States....
Thermoelectric power plants with once-through cooling systems generated 35% (∼300 GW) of U.S. electr...
textThe energy-water nexus represents a complex system of correlated resources, with particular rele...
Climate change is raising the world’s temperature, thereby causing residents to use more water for u...
The water-energy nexus refers to the relationship between how much water is used to generate and tra...
Climate change will impact water supplies, exacerbating existing pressures on water resources caused...
Water is at the center of a complex and dynamic system involving climatic, biological, hydrological,...
Water supply constraints can significantly restrict electric power generation, and such constraints ...
Worldwide, 98% of total electricity is currently produced by thermoelectric power and hydropower. Cl...
Worldwide, 98% of total electricity is currently produced by thermoelectric power and hydropower. Cl...
Supplemental Data for Dyreson et al. 2021, Earth's Future Publication Title: The Role of Regiona...
Climate change poses a serious threat to human welfare. There is now unequivocal scientific evidence...
Quantifying water implications of energy transitions is important for assessing long-term freshwater...
Large and reliable volumes of water are required to cool thermal power plants. Yet across the world ...