%0 Figure %A Yates, D %A Meldrum, J %A Flores-Lopez, F %A Davis, Michelle %D 2013 %T Maximum annual difference in river water temperatures for the Coosa River above Lake Weiss and below the once-through coal plant Hammond (left) and the Chattahoochee River above West Point Lake and below the discharge from Plant Wansley (right) in degrees Celsius %U https://iop.figshare.com/articles/figure/_Maximum_annual_difference_in_river_water_temperatures_for_the_Coosa_River_above_Lake_Weiss_and_belo/1011880 %R 10.6084/m9.figshare.1011880.v1 %2 https://iop.figshare.com/ndownloader/files/1479705 %K acf %K river water temperatures %K energy deployment system %K Lake Weiss %K water bodies %K Plant Wansley %K drier future climate %K future scenario %K river temperatures %K water resources %K water impacts %K electricity %K West Point Lake %K weap %K degrees Celsius %K planning %K Chattahoochee River %K Coosa River %K water evaluation %K Environmental Science %X

Figure 10. Maximum annual difference in river water temperatures for the Coosa River above Lake Weiss and below the once-through coal plant Hammond (left) and the Chattahoochee River above West Point Lake and below the discharge from Plant Wansley (right) in degrees Celsius.

Abstract

Recent studies on the relationship between thermoelectric cooling and water resources have been made at coarse geographic resolution and do not adequately evaluate the localized water impacts on specific rivers and water bodies. We present the application of an integrated electricity generation–water resources planning model of the Apalachicola/Chattahoochee/Flint (ACF) and Alabama–Coosa–Tallapoosa (ACT) rivers based on the regional energy deployment system (ReEDS) and the water evaluation and planning (WEAP) system. A future scenario that includes a growing population and warmer, drier regional climate shows that benefits from a low-carbon, electricity fuel-mix could help maintain river temperatures below once-through coal-plants. These impacts are shown to be localized, as the cumulative impacts of different electric fuel-mix scenarios are muted in this relatively water-rich region, even in a warmer and drier future climate.

%I IOP Publishing