textThe energy-water nexus represents a complex system of correlated resources, with particular relevance to thermoelectric power plants. Since thermoelectric power plants typically depend on water for cooling, these facilities are prone to water-related challenges. At the same time, large water withdrawals for power plants can adversely impact other water users in a watershed. This work aims to evaluate water impacts on Texas power plant operations and the associated effects these power plants have on water availability. An evaluation of the water impacts on power generation in Texas was completed through four analyses: 1) water availability effects of changing cooling technologies, 2) economic value of drought resiliency through use ...
There is a myriad of uses to which our country's freshwater supply is currently committed. Together ...
South Central Texas is a region where water is scarce, the region exhibits growing water, energy and...
At the time of publication A.P Pacsi, N.S. Alhajeri, M.E. Webber, and D.T. Allen were at the Univers...
Thermoelectric power plants contribute 90 percent of the electricity generated in the United States....
Here we analyze the water use rates for thermoelectric power generation with respect to cooling syst...
textRecent droughts and heat waves have revealed the vulnerability of some power plants to effects f...
This report was funded by the U.S. Department of Energy's (DOE's) National Energy Technology Laborat...
textEnergy and water are closely related to each other, yet management of the two resources has hist...
Thermal power plants use large amounts of water, mainly for cooling purposes. Over a long operationa...
Compared with many other countries, the United States is relatively well endowed with water resource...
Water stress threatens to impact electricity production from thermoelectric plants in the Southeast ...
textThe water sector is responsible for a significant portion of energy use. Energy is required for...
The water-energy nexus refers to the relationship between how much water is used to generate and tra...
textGrowing populations and periodic drought conditions have exacerbated water stress in many areas ...
Large-scale U.S. dependence on thermoelectric (steam electric) generation requiring water for coolin...
There is a myriad of uses to which our country's freshwater supply is currently committed. Together ...
South Central Texas is a region where water is scarce, the region exhibits growing water, energy and...
At the time of publication A.P Pacsi, N.S. Alhajeri, M.E. Webber, and D.T. Allen were at the Univers...
Thermoelectric power plants contribute 90 percent of the electricity generated in the United States....
Here we analyze the water use rates for thermoelectric power generation with respect to cooling syst...
textRecent droughts and heat waves have revealed the vulnerability of some power plants to effects f...
This report was funded by the U.S. Department of Energy's (DOE's) National Energy Technology Laborat...
textEnergy and water are closely related to each other, yet management of the two resources has hist...
Thermal power plants use large amounts of water, mainly for cooling purposes. Over a long operationa...
Compared with many other countries, the United States is relatively well endowed with water resource...
Water stress threatens to impact electricity production from thermoelectric plants in the Southeast ...
textThe water sector is responsible for a significant portion of energy use. Energy is required for...
The water-energy nexus refers to the relationship between how much water is used to generate and tra...
textGrowing populations and periodic drought conditions have exacerbated water stress in many areas ...
Large-scale U.S. dependence on thermoelectric (steam electric) generation requiring water for coolin...
There is a myriad of uses to which our country's freshwater supply is currently committed. Together ...
South Central Texas is a region where water is scarce, the region exhibits growing water, energy and...
At the time of publication A.P Pacsi, N.S. Alhajeri, M.E. Webber, and D.T. Allen were at the Univers...