Challenges and opportunities at the nexus of energy, water, and food: A perspective from the southwest United States

Large regions of the United States (and the world) face “situational scarcities” of water that arises from energy extraction and use, agricultural practices, expanding urban populations, and poorly integrated water policies. Creating “fit-for-purpose” water from suboptimal sources will require new m...

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Veröffentlicht in:	MRS energy & sustainability 2018-12, Vol.5 (1), p.1, Article 1
Hauptverfasser:	Armstrong, Neal R., Shallcross, R. Clayton, Ogden, Kimberly, Snyder, Shane, Achilli, Andrea, Armstrong, Erin L.
Format:	Artikel
Sprache:	eng
Schlagworte:	21st century Agricultural practices Agriculture Alternative energy sources Aqueous solutions Carbon Coal Contaminants Costs Drought Economic activity Economics and Management Electricity generation Energy Energy consumption Energy Materials Energy Policy Energy resources Federal agencies Food Materials Engineering Materials Science Natural gas Nuclear energy Policies Population growth Populations Power plants Precipitation Regions Renewable and Green Energy Renewable resources Review Separation Sustainable Development Urban agriculture Urban populations Water purification Water shortages Water stress Water supply Wind power Workshops
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creator	Armstrong, Neal R. Shallcross, R. Clayton Ogden, Kimberly Snyder, Shane Achilli, Andrea Armstrong, Erin L.
description	Large regions of the United States (and the world) face “situational scarcities” of water that arises from energy extraction and use, agricultural practices, expanding urban populations, and poorly integrated water policies. Creating “fit-for-purpose” water from suboptimal sources will require new materials and a new understanding of the separation of contaminants from complex aqueous media. We review here scientific, technological, and societal challenges at the nexus of energy, water, and food. We focus on specific examples of energy and water stress in the southwestern United States and technological routes to new sources of water. Situational scarcities of water are increasing worldwide because of the reliance on uncertain water sources, coupled with expanding populations, expanded agricultural uses of water, and water and energy use policies that have not always been effectively integrated. This review is framed using the outcomes of recent National Science Foundation workshops focusing on the Energy/Water/Food Nexus and from other recent U.S. Department of Energy workshops focused on the Energy/Water nexus. Water-stressed regions, even after extensive conservation measures, may need new supplies of water that come from less than optimal sources. A basic understanding of the separation of water from complex aqueous solutions along with new materials, distributed and publically accepted technologies and unit operations, underpin the future production of “fit-for-purpose” water. Regional test beds are required that are small and provide for simultaneous control of a number of variables, yet large enough to approximate real communities. Solutions to these problems represent opportunities for innovation and creation of economically viable, resilient communities.
doi_str_mv	10.1557/mre.2018.2
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subjects	21st century Agricultural practices Agriculture Alternative energy sources Aqueous solutions Carbon Coal Contaminants Costs Drought Economic activity Economics and Management Electricity generation Energy Energy consumption Energy Materials Energy Policy Energy resources Federal agencies Food Materials Engineering Materials Science Natural gas Nuclear energy Policies Population growth Populations Power plants Precipitation Regions Renewable and Green Energy Renewable resources Review Separation Sustainable Development Urban agriculture Urban populations Water purification Water shortages Water stress Water supply Wind power Workshops
title	Challenges and opportunities at the nexus of energy, water, and food: A perspective from the southwest United States
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