A hybrid Eulerian-Lagrangian particle-in-cell-type numerical method is developed for the solution of advection-dominated flow problems. Particular attention is given over to the high-order transfer of flow properties from the particles to the grid. For smooth flows, the method presented is of formal high-order accuracy in space. The method is applied to solve the nonlinear shallow water equations resulting in a new, and novel, shock capturing shallow water solver. The approach is able to simulate complex shallow water flows, which can contain an arbitrary number of discontinuities. Both trivial and nontrivial bottom topography is considered, and it is shown that the new scheme is inherently well balanced, exactly satisfying the C-property. The scheme is verified against several one-dimensional benchmark shallow water problems. These include cases that involve transcritical flow regimes, shock waves, and nontrivial bathymetry. In all the test cases presented, very good results are obtained.

• 出版日期2018-8-20