Modeling A Small Laboratory Cold-Trap Experiment

Society for Mining, Metallurgy & Exploration

D. B. Walter S. T. Green R. W. Fedors R. A. Hart

Organization:: Society for Mining, Metallurgy & Exploration
Pages:: 7
File Size:: 276 KB
Publication Date:: Jan 1, 2004

Abstract

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Computational fluid dynamic (CFD) modeling of a potential nuclear waste repository drift may be an important tool to estimate moisture redistribution caused by natural convection within the drift. To refine and support CFD techniques, a small laboratory cold-trap experiment was developed. Results from numerical modeling of the laboratory experiment show the sensitivity of the bulk air flow rate and average air temperature within the drift to several key parameters, including various boundary condition assumptions and surrounding porous media properties.

Citation

APA: D. B. Walter S. T. Green R. W. Fedors R. A. Hart (2004) Modeling A Small Laboratory Cold-Trap Experiment

MLA: D. B. Walter S. T. Green R. W. Fedors R. A. Hart Modeling A Small Laboratory Cold-Trap Experiment. Society for Mining, Metallurgy & Exploration, 2004.

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