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High-order finite volume WENO schemes for the shallow water equations with dry states |
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| Authors: | Yulong Xing Chi-Wang Shu |
| Institution: | a Computer Science and Mathematics Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA b Department of Mathematics, University of Tennessee, Knoxville, TN 37996, USA c Division of Applied Mathematics, Brown University, Providence, RI 02912, USA |
| Abstract: | The shallow water equations are used to model flows in rivers and coastal areas, and have wide applications in ocean, hydraulic engineering, and atmospheric modeling. These equations have still water steady state solutions in which the flux gradients are balanced by the source term. It is desirable to develop numerical methods which preserve exactly these steady state solutions. Another main difficulty usually arising from the simulation of dam breaks and flood waves flows is the appearance of dry areas where no water is present. If no special attention is paid, standard numerical methods may fail near dry/wet front and produce non-physical negative water height. A high-order accurate finite volume weighted essentially non-oscillatory (WENO) scheme is proposed in this paper to address these difficulties and to provide an efficient and robust method for solving the shallow water equations. A simple, easy-to-implement positivity-preserving limiter is introduced. One- and two-dimensional numerical examples are provided to verify the positivity-preserving property, well-balanced property, high-order accuracy, and good resolution for smooth and discontinuous solutions. |
| Keywords: | Shallow water equations Well-balanced WENO scheme Finite volume method Positivity-preserving |
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