Integrated Hydrogeophysical and Hydrogeologic Driven Parameter Upscaling for Dual-Domain Transport Modeling | Zendy

G. P. Flach | Zendy; Mary B. Harris | Zendy; Susan S. Hubbard | Zendy; C. C. Knapp | Zendy; Mike B. Kowalsky | Zendy; Maggie Millings | Zendy; John Shafer | Zendy; Mike Waddell | Zendy

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Integrated Hydrogeophysical and Hydrogeologic Driven Parameter Upscaling for Dual-Domain Transport Modeling

Author(s) -

G. P. Flach,

Mary B. Harris,

Susan S. Hubbard,

C. C. Knapp,

Mike B. Kowalsky,

Maggie Millings,

John Shafer,

Mike Waddell

Publication year - 2006

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/895887

Subject(s) - hydrogeology , field (mathematics) , dual (grammatical number) , scale (ratio) , plume , domain (mathematical analysis) , computer science , characterization (materials science) , environmental science , geology , geotechnical engineering , mathematics , meteorology , materials science , art , mathematical analysis , literature , physics , quantum mechanics , pure mathematics , nanotechnology

Our research project is motivated by the observations that conventional characterization approaches capture only a fraction of heterogeneity affecting field-scale transport, and that conventional modeling approaches, which use this sparse data, typically do not successfully predict long term plume behavior with sufficient accuracy to guide remedial strategies. Our working hypotheses are that improved prediction of contaminant transport can be achieved using a dual-domain transport approach and field-scale characterization approaches

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