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A National Framework for Water-Informed Geothermal Expansion and Energy-Water Resilience
This white paper outlines the need for a coordinated, national framework to guide geothermal energy expansion in ways that use water efficiently and strengthen energy-water resilience. It highlights the opportunity to connect national-to-regional modeling with site-scale analysis,...
Wild, T., Niazi, H., DiRaddo, S., Villante, M., Goecker, A., and Chowdhury, K.
Synergistic Pathways for Water Security in Emerging Sectors: Data Centers and Modern Nuclear Facilities
Stand-alone data centers, nuclear-powered data centers, and novel nuclear facilities such as fusion plant and small modular reactors are water intensive sectors poised to rapidly expand, presenting a significant challenge to the water-for-energy nexus. The potential for large-scal...
Catalano, A., Duan, Z., Quimby, C., Wang, T., Chini, C., Premathilake, L., and Pope, J.
Hydrotwin: an AI-based physics and optimization framework for improved water resource resilience in systems experiencing adverse events
This white paper focuses on water for energy.
As we move ahead into an uncertain future for water resource demand and supply, a massive challenge exists to optimize water systems to be resilient to a range of press/pulse extreme event states and conditions. Optimal decision-makin...
Bennett, K., Schwenk, J., and Garcia, M.
Standardized Siting and Risk Analysis Decision Support Mechanisms for Water-Intensive Industries
This paper focuses on water for cooling industrial energy generation loads and energy and water for cooling large process loads. A challenge is that siting any large facility with substantial water demands without understanding baseline conditions and assessing potential multi-sec...
Fuchs, H., Karki, U., Stokes-Draut, J., Rao, P., Varadharajan, C., Hodson, A., Ajami, N., and Shehabi, A.
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.
GORMan: A framework for Governance, Ontologies, and Risk Management of scalable, cross-sector integration of secure energy-water infrastructure information
This white paper addresses the inherent challenges in applying data-driven approaches to integrated energy-water solutions across the US due to the lack of standardization in collection, storage, governance, management, curation and risk mitigation among data owners across scales...
Fishler, H., May, A., Knight, K., and Rebillout, L.
Co-optimization of Energy and Water Demands to Enable Rapid but Resilient Expansion of Data Centers
Data centers consume substantial amounts of electricity and can amplify water stress locally as well as in distant regions via their direct (for cooling) and indirect (for thermoelectric power generation) consumption of water. There is an opportunity to enhance energy-water resili...
Burleyson, C., Akdemir, K., Mongird, K., and Wild, T.
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.
Water for Baseload Power-A Revamp of the Nation's Nuclear Water Use Data
Providing approximately 20% of total U.S. electricity generation each year from a fleet of only 54 plants (94 reactors) nationwide, the nuclear sector is characterized by large and locally impactful power generating facilities. About half of existing reactors rely on once-through ...
Turner, S., Siddik, M., Montgomery, C., and Marston, L.
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.