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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.
Increasing Robustness and Resilience of Water Delivery Infrastructure
This white paper outlines the need for a national testing capability for water treatment and delivery infrastructure to enhance energy-water resilience (EWR) and address existing knowledge and technology gaps. The vulnerability of water systems to contamination, physical compromis...
Reese, S., Gagnon, O., and Otto, M.
Maximizing American Energy Dominance with Forecasts of Energy Infrastructure Flood Exposure and AI Predictions of Consequences
This white paper focuses on water for energy.
High frequency, reliable, and spatially explicit flood forecasts are necessary to forecast impacts to the energy system from hydrological hazards. While these tools are nearing operation at scale, they have not yet been systematicall...
Brelsford, C., Garcia, M., Robbins, Z., Schwenk, J., and Liu, Y.
High-Altitude Electromagnetic Pulse (HEMP) effects on Energy-Water resilience
Executive Order 13865 emphasizes the need to focus on critical infrastructure resilience to high-altitude electromagnetic pulse (HEMP) effects, indicating that simulation of EMP effects on both energy and water systems need to be studied. The key technical challenges in assessing ...
Tabarez, J., Barnes, A., and Nelson, E.
Revolutionizing Water-Energy Infrastructure Resilience through Distributed Sensing and Digital Twins
This white paper addresses the intersection of Water for Energy and Energy for Water, proposing foundational technology to enhance the resilience and operational longevity of critical national assets, including hydropower facilities and marine energy systems.
The core challenge i...
Luo, L.
A Decision-Framework for Retrofitting or Decommissioning Hydropower Plants in the USA
This white paper presents a comprehensive decision framework for evaluating the retrofitting or decommissioning of aging hydropower plants in the United States, focusing on the critical intersection of water and energy. The U.S. hydropower sector, comprising approximately 2,000 pl...
Mishra, S., Kumar, S., Prairie, J., Giovando, J., Rajib, A., and Castillo, C.
A Probabilistic Framework for Uncovering Water-Energy Infrastructure Dependencies and Assessing Systemic Consequences
The coupling of water and energy systems is critical for ensuring resilient infrastructure, particularly as water plays an essential role in the safe and reliable operation of energy sources. The dependency on water becomes increasingly complex when energy systems are integrated w...
Yigitoglu, A., Muhlheim, M., Smith, A., Ramuhalli, P., and Berres, A.
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.
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.
Managing Systemic Interdependence within Energy-Water-Transportation Systems
This white paper discusses the complex interdependence between energy, water, and transportation (EWT) systems, which underpins critical infrastructure and supply chains. Failures in any of these systems can cause cascading disruptions across the others due to their tight integrat...
McPherson, T., Giovando, J., Daniel, B., Chatterjee, S., and Chowdhury, P.