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Weighted Averaged Flux-Type Scheme for Shallow-Water Equations with Fractional Step Method |
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| Authors: | Dae-Hong Kim Yong-Sik Cho Woo-Gu Kim |
| Affiliation: | 1Researcher, Water Resources Research Team, Korea Institute of Water and Environment, Korea Water Resources Corporation, 462-1 Jeonmin-dong, Youseong-gu, Daejeon 305-730, Korea. 2Associate Professor, Dept. of Civil Engineering, Hanyang Univ., 17 Haengdang-dong, Seongdong-gu, Seoul 133-791, Korea (corresponding author). 3Director General, Korea Institute of Water and Environment, Korea Water Resources Corporation, 462-1 Jeonmin-dong, Youseong-gu, Daejeon 305-730, Korea. |
| Abstract: | A numerical model describing two-dimensional fluid motions has been developed on an unstructured grid system. By using a fractional step method, a two-dimensional problem governed by the two-dimensional shallow-water equations is treated as two one-dimensional problems. Thus it is possible to simulate two-dimensional numerical problems with a higher computational efficiency. One-dimensional problems are solved by using an upwind total variation diminishing version of the second-order weighted averaged flux method with an approximate Riemann solver. Numerical oscillations commonly observed in second-order numerical schemes are controlled by exploiting a flux limiter. For the general purpose, the model can simulate on an arbitrary topography, treat a moving boundary, and resolve a shock. Five ideal and practical problems are tested. Very accurate results are observed. |
| Keywords: | Shallow water Grid systems Numerical models Fluid flow Equations of motion |