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Jon Derek Loftis, Molly Mitchell, Daniel Schatt, David R. Forrest, Harry V. Wang, David Mayfield and William A. Stiles
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Fei Ye, Yinglong J. Zhang, Harry V. Wang, Hai Huang, Zhengui Wang, Zhuo Liu and Xiaonan Li
Holistic simulation approaches are often required to assess human impacts on a river-estuary-coastal system, due to the intrinsically linked processes of contrasting spatial scales. In this paper, a Semi-implicit Cross-scale Hydroscience Integrated Syste...
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Ping Wang, Harry Wang, Lewis Linker and Kyle Hinson
Computer model experiments are applied to analyze hypoxia reductions for opposing wind directions under various speeds and durations in the north?south oriented, two-layer-circulated Chesapeake estuary. Wind?s role in destratification is the main mechani...
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Harry V. Wang, Jon Derek Loftis, David Forrest, Wade Smith and Barry Stamey
Washington, DC, the capital of the U.S., is located along the Upper Tidal Potomac River, where a reliable operational model is needed for making predictions of storm surge and river-induced flooding. We set up a finite volume model using a semi-implicit,...
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Harry V. Wang, Jon Derek Loftis, Zhuo Liu, David Forrest and Joseph Zhang
Hurricane Sandy inflicted heavy damage in New York City and the New Jersey coast as the second costliest storm in history. A large-scale, unstructured grid storm tide model, Semi-implicit Eulerian Lagrangian Finite Element (SELFE), was used to hindcast w...
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Xiang Wang, Rajeev Arora, Harry T. Horner, and Stephen L. Krebs
Pág. 768 - 776
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Zhaoqing Wang, Zhejiang Sci-Tech University
Harry H. Cheng, University of California, Davis
Pág. 76 - 81
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Johnson, R Scott; Rosecrance, Rich; Weinbaum, Steve; Andris, Harry; Wang, Ji
Pág. 364 - 364
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