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3A.7 PARALLEL CLIMATE MODEL SIMULATIONS WITH A DYNAMIC-THERMODYNAMIC ICE THICKNESS DISTRIBUTION MODEL John W. Weatherly* U. S. Army Cold Regions Research and Engineering Laboratory, Hanover, New Hampshire
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Document Date: 2001-03-19 15:53:56

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City

Seattle / Los Alamos / Hanover / /

Company

Engineering Laboratory / Boulder CO. / /

Country

United States / Greenland / Netherlands / Canada / /

/

Event

Environmental Issue / /

Facility

Hunke Los Alamos National Laboratory / University of Colorado / /

IndustryTerm

satellite data / implicit solution / energy-conserving thermodynamics / pre-industrial climate using constant greenhouse-gas concentrations / energy fluxes / /

NaturalFeature

Bering Strait / POP ocean / PCTM sea / Pacific Ocean / Beaufort Sea / Canadian Archipelago / Weddell Sea / Arctic Ocean / /

Organization

Univ. of Washington / National Science Foundation / United States Army / University of Colorado / Boulder / National Center for Atmospheric Research / National Snow and Ice Data Center / Washington Elizabeth C. Hunke Los Alamos National Laboratory / /

Person

John W. Weatherly / Tony Craig / Jerry Meehl / Gary Strand / J. Arblaster / V / Tom Bettge / Tucker III / Hudson / Julie Arblaster / Warren Washington / Bruce Briegleb / Bill Lipscomb / /

Position

DYNAMIC-THERMODYNAMIC ICE THICKNESS DISTRIBUTION MODEL / author / elasticviscous-plastic model for sea ice dynamics / EVP / /

ProvinceOrState

New Mexico / Colorado / New Hampshire / /

PublishedMedium

Journal of Computational Physics / Atmospheric Research / Climate Dynamics / /

Region

Antarctic / /

Technology

radiation / thermodynamics / simulation / /

SocialTag