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5/15/2015
ThreeDimensional Numerical Simulation of Flow and Mass Transport in a Shallow Oxbow Lake (ASCE)
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Abstract PDF (875 KB) Chao, X., Jia, Y., and Shields, Jr., F. (2004) ThreeDimensional Numerical Simulation of Flow and Mass Transport in a Shallow Oxbow Lake. Critical Transitions in Water and Environmental Resources Management: pp. 110. doi: 10.1061/40737(2004)320
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ThreeDimensional Numerical Simulation of Flow and Mass Transport in a Shallow Oxbow Lake Appears in
ASCE Book Series ASCE Press CDRM Monographs (disaster/risk) GPP (geotechnical proceedings) GSP (geotechnical proceedings & Title Information reports) Lecture Notes in Mechanics Manuals of Practice Proceedings Critical Transitions in Water and Environmental Resources Management Society Special Publications Environmental and Water Resources 2004 Standards Edited by Gerald Sehlke; Donald F. Hayes; and David K. Stevens TCCRE Monographs (cold regions) TCLEE Monographs Conference Information (lifelines/earthquakes) Technical Reports World Water and Environmental Resources Congress 2004 http://ascelibrary.org/doi/abs/10.1061/40737%282004%29320
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5/15/2015
ThreeDimensional Numerical Simulation of Flow and Mass Transport in a Shallow Oxbow Lake (ASCE)
TEMSP (engineering mechanics proceedings)
World Water and Environmental Resources Congress 2004 Salt Lake City, Utah, United States June 27July 1, 2004
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ISBN (print): 9780784407370 Publisher: American Society of Civil Engineers Copyright Year: 2004 Xiaobo Chao1; Yafei Jia2; and F. Douglas Shields, Jr.31National Center for Computational Hydroscience and Engineering, University of Mississippi, Carrier Hall 102, University, MS 386772National Center for Computational Hydroscience and Engineering, University of Mississippi, Carrier Hall 102, University, MS 386773National Sedimentation Laboratory, United State Department of Agriculture, Agriculture Research Service, P.O. Box 1157, Oxford, MS 38655
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A threedimensional numerical model was developed for simulating the flow field and mass concentration distribution in a shallow oxbow lake, Deep Hollow Lake, Mississippi. Flow within the lake was primarily windinduced, and the simulated dynamics of winddriven flow and mass transport in the lake were validated using field measurements. Two data sets from Deep Hollow Lake were used for model test. The first data set resulted from slug injection of a tracer dye, with measurements of dye concentration distribution within the lake at selected intervals over two days. The simulated and measured dye concentration distributions agreed quite well. The second test involved longterm simulation of phytoplankton production, expressed as concentration of chlorophyll. Trends of total chlorophyll concentration obtained from the numerical model were in general agreement with the field measurements. Permalink: http://dx.doi.org/10.1061/40737(2004)320 ASCE Subject Headings: Threedimensional models, Mass transport, Mississippi, Lakes, Water flow © 2004 American Society of Civil Engineers
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http://ascelibrary.org/doi/abs/10.1061/40737%282004%29320
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