Saturation wind power potential and its implications for wind energy Mark Z. Jacobsona,1 and Cristina L. Archerb,1 a Department of Civil and Environmental Engineering, Stanford University, Stanford, CA; and bC - High-altitude wind power - Document - PDFSEARCH.IO - Document Search Engine

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	Saturation wind power potential and its implications for wind energy Mark Z. Jacobsona,1 and Cristina L. Archerb,1 a Department of Civil and Environmental Engineering, Stanford University, Stanford, CA; and bC Add to Reading List Document Date: 2012-12-07 16:38:41 Open Document File Size: 1,58 MB Share Result on Facebook City Geneva / Newark / New York / Cambridge / London / Hoboken / L.A. / / Company Renewable Energy / Elsevier Academic Press / Cambridge Univ Press / Efficient Electric Power Systems / vF / John Wiley & Sons / / Continent Antarctica / / Country United States / Australia / / / Event Environmental Issue / / Facility University of Delaware / Stanford University / American Institute of Physics / Harvard University / / IndustryTerm energy extraction / energy potentials / extractable energy potentials / trace chemicals / wind energy / energy future / energy conservation / horizontal energy transport / natural gas produce electricity / extractable energy / energy infrastructure / energy cycle / electricity/ / reagents/analytic tools / gas processes / greenhouse gas / clean energy economy / electricity use / airborne wind energy devices / energy / timedependent energy extraction / wind turbine kinetic energy extraction / energy resources / satellite data / electricity / annual global mean energy budget / wind infrastructure / wind energy resources / kinetic energy / clean-energy economy / electricity source / subgrid-scale turbulent kinetic energy / Energy diffusion / electrical energy / potential energy / internal energy / turbulent kinetic energy / kinetic energy extraction / wind-generated electricity / computing / potential and kinetic energy / enormous computing requirements / final kinetic energy / kinetic energy reduction / / NaturalFeature Sahara Desert / Gobi Desert / Studying ocean / Jet stream / North Sea / East Coast / Yellow Sea / / Organization American Institute of Physics / Harvard University / National Science Foundation / U.S. Environmental Protection Agency / National Oceanic and Atmospheric Administration / University of Delaware / Editorial Board / Department of Civil and Environmental Engineering / United Nations / Stanford University / National Aeronautics and Space Administration / / Person Cristina L. Archerb / Mark Z. Jacobsona / / Position Archer / editor / General / Author / Davis PM / turbulence closure model for geophysical fluid problems / Archer Global warming increases temperatures / / ProvinceOrState New Jersey / New York / Delaware / California / Massachusetts / / Region Antarctic / East Coast / Patagonia / Arctic Circle / / SportsLeague Stanford University / / Technology radiation / Aero / Environmental Engineering / condensation / simulation / / URL http / SocialTag Technology Wind farm Wind turbine GE Wind Energy High-altitude wind power Wind energy Environmental impact of wind power Small wind turbine Energy Wind power