模拟潮汐流的不连续Galerkin有限元浅水模型

Oceans '04 MTS/IEEE Techno-Ocean '04 (IEEE Cat. No.04CH37600) Pub Date : 2004-11-09 DOI:10.1109/OCEANS.2004.1406348

Zhixing Yu, Y. Kyozuka

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引用次数: 2

摘要

采用不连续Galerkin (DG)有限元法模拟了潮汐流，该方法可以捕获不连续点附近的激波，并在长期计算中保留了系统通量。对于水平扩散项边界积分的离散化，采用了非一致性线性三角形单元来简化，而对对流项的离散化处理与其他线性单元没有区别。对角线质量矩阵与特殊单元耦合的性质使得时间积分显式，不需要进行质量集总，而通常的连续有限元则需要进行质量集总。采用HLL近似黎曼求解器，结合三角网格上的高效多维限制器，得到了不连续单元界面间的数值通量。数值结果表明了该模型的鲁棒性

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A discontinuous Galerkin finite element shallow water model in simulating tidal flows

The tidal flows are simulated by a discontinuous Galerkin (DG) finite element method (FEM), which can capture shock waves near the discontinuities and conserve the system fluxes during a long term calculation. A nonconforming linear triangular element is used to simplify the discretization of the boundary integration of horizontal diffusion terms, though there is no difference in treating convective terms for any other linear element. The nature of the diagonal mass matrix couples with the special element makes the time integral explicit so that no mass lumping is needed, whereas it does in the usual continuous FEM. The numerical flux between the discontinuous element interfaces is obtained by the HLL approximate Riemann solver, together with an efficient multi-dimensional limiter on a triangular mesh. Numerical results show the robustness of the present model

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来源期刊

Oceans '04 MTS/IEEE Techno-Ocean '04 (IEEE Cat. No.04CH37600)

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