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Enabling Energy-Water Resilience in U.S. Data Centers: Water-Aware Grid Planning and Operations with Infrastructure-Compatible Cooling
Rapid, concentrated expansion of AI data centers is reshaping electricity demand profiles, local infrastructure requirements, and regional resource constraints. These facilities are often sized from tens to hundreds of megawatts with multi-gigawatt campus clusters. They are relati...
Zhou, Z., Wu, M., Qiu, F., Muehleisen, R., Zhao, D., Yan, E., and Worek, W.
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.
Reinforcement Learning for Water-Energy Infrastructure Resilience and Evolution
This white paper outlines a foundational AI-based framework for improving resilience across the energy-water nexus, with a focus on electric grid and water system interdependencies under hydrologic and weather extremes. The focal area spans both "water for energy" and "energy for ...
Jackson, N., and Rao, N.
Energy/Water Operation Smart Contract for Hydropower Plant/Data Centers
We propose an Energy/Water Operation Smart Contract that securely coordinates hydropower plant operations with energy-intensive data-center clusters using Distributed Ledger Technology (DLT). The smart contract provides a decentralized, tamper-resistant layer for operational contr...
Hink, R., Piesciorovsky, E., Hahn, G., Werth, A., and Wang, H.
Forecast-Informed, Market-Responsive Conjunctive Operations for Multi-Reservoir Water-Energy Systems
The white paper, "Forecast-Informed, Market-Responsive Conjunctive Operations for Multi-Reservoir Water-Energy Systems" , addresses the water-for-energy and energy-for-water nexus by proposing a framework for co-optimizing hydropower and cascading reservoir operations alongside fl...
Pavicevic, M., Mork, E., Yu, A., Herman, J., Emmons, J., and Ploussard, Q.
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-Energy-Economics: Leveraging Market Instruments for Building Resilience
Energy and water systems exist in an economic context that shapes their supply and use, which in turn shapes the macroeconomics of the country. A holistic energy-water-economics view is needed that links physical resource constraints, sectoral interdependencies, policy and managem...
Wilson, K., and Wild, T.
Material Science Driven Water Technology Innovation
The white paper explores multiple Energy-Water Resilience (EWR) topics, including water for energy, energy for water, and their intersections. It proposes low-cost, scalable water-based material processes to advance water technologies through materials innovation. The existing cha...
Chang, C., and Ajami, N.
Energy-Water-Land Frameworks for Data Center Siting and Operations
This white paper focuses on energy-water-land intersections for data center siting and operations.
Challenges include rapid deployment of data centers and consequential uncertainty regarding the extent these facilities may impact or be constrained by water, land, and energy resou...
Macknick, J., Schneider, K., Barton, R., Hardikar, M., Martin, J., Struck, S., Lepley, K., Steward, D., Smith, F., Levine, A., Rivers, M., Rosenlieb, E., Gu, J., Podgorny, S., Castelao, G., and Leick, N.
Monitoring, Planning, and Management of Water Quality and Quantity for Resilient Water and Energy Systems
Both resilient systems where water is used for energy production and energy is used for treatment and operation depend not only on the quantity of water, but also quality and environmental health. Addressing gaps in environmental health and infrastructure condition/capability data...
Hansen, C., DeRolph, C., Allen-Dumas, M., Griffiths, N., Matson, P., Pilla, R., Siddik, A., Stevenson, L., and Johnson, R.