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Integrated Water-Energy-Economics Framework for Public Water System Resilience
This paper highlights key energy-for-water challenges in U.S. public water systems (PWS): aging infrastructure, cost recovery gaps, hydrologic vulnerabilities, and high-demand users like data centers--which concentrate near population centers and existing PWS. It underscores the n...
Siddik, M., Ahmad, N., Guaita, S., and Chinthavali, S.
Energy-Water System Resilience to Flooding
This white paper addresses the resilience challenges and opportunities within interdependent energy-water systems, particularly under the stress of flooding events. It describes how large-scale flood events impact these systems, posing risks such as operational constraints, infras...
McPherson, T., Giovando, J., Hou, H., Daniel, B., Bracken, C., Li, X., and Bixler, T.
Quantifying compound hazard risk to energy and water systems
The focal area is identification and quantification of the risk of combined (compound) hazards on water and energy systems and their interactions. The existing challenge is addressing risk and consequences to energy and water systems by compound hazards is an emerging area of stud...
Giovando, J., Chen, T., Fang, Y., Feng, S., McPherson, T., Regier, P., and Wang, T.
Building Resilient Energy-Water Systems: Integrated Modeling, Scenario Selection, and Near-Term Decision Support
U.S. energy and water systems are increasingly interdependent, often leading to cascading and compounding system failures when faced with acute and chronic hazards. Such stressors propagate across multiple spatial scales, typically starting with changing earth system dynamics (for...
Rodriguez, L., Szinai, J., Stokes-Draut, J., Dwivedi, D., Ulrich, C., Holm, J., and Vahmani, P.
Advancing Energy-Water Resilience in Alaska, Hawaii, and U.S. Territories
Challenges facing Alaska, Hawaii, and U.S. Territories for both "energy for water" and "water for energy" are distinctive from the contiguous U.S. In this whitepaper, we discuss opportunities for new hydropower development and non-traditional water-energy linkages in these regions...
Hansen, C., Acharya, M., Ashraf, F., Atkinson, T., Chu, A., and Calderon, J.
Integrated Energy-Water Data for Cross-Sector Resilience
Disjointed management of water and energy systems has created systemic vulnerabilities in the United States, particularly as aging infrastructure, population and industrial growth, and severe weather events strain both sectors. High-quality, standardized datasets like those provid...
Hodson, A., Stokes-Draut, J., Chini, C., Rao, P., and Semrod, K.
Advancing Energy-Water Resilience in California: A Framework for Integrated Water and Power Management Opportunities
This white paper identifies opportunities to advance energy-water resilience in California, using the Central Valley Project (CVP) and State Water Project (SWP) system. It addresses the critical intersection of both water for energy and energy for water management, emphasizing how...
Mork, E.
Wave Energy for Resilient Water Supply in Coastal Communities
This white paper examines the use of wave energy for desalination in coastal communities, focusing on enhancing resilience by providing a sustainable source of drinking water during disruptions (intersection of energy and water). Coastal areas, particularly remote ones, face signi...
Grasberger, J., and Klise, K.
Water Availability for Cooling Systems: Assessing Demands, Constraints, and Alternative Sources for Thermoelectric Plants and Data Centers
This white paper focuses on enhancing the intersection of energy and water resilience by advancing water reuse and reclamation technologies, particularly for thermoelectric power plants and data centers. The primary goal is to efficiently manage cooling water to meet growing deman...
Pacheco, C., Cafferty, K., Reese, S., Atkinson, T., Mosier, T., and Tidwell, V.
Water Reuse Energy Demands and Water Quality Metrics
This white paper discusses strategies for enhancing water resilience in energy production by advancing water reuse and reclamation technologies, particularly for thermoelectric power plants and data centers. The focus is on efficiently closing the water loop by processing discharg...
Shurtliff, M., and Reese, S.