Jian Shi scite author profile

Non-hydrostatic models are computationally expensive in simulating density flows and mass transport problems due to the requirement of sufficient grid resolution to resolve density and flow structures. Numerical tests based on the Non-Hydrostatic Wave Model, NHWAVE [Ma et al., 2012], indicated that up to 70% of the total computational cost may be born by the pressure Poisson solver in cases with high grid resolution in both vertical and horizontal directions. However, recent studies using Poisson solver-based non-hydrostatic models have shown that an accurate prediction of wave dispersion does not require a large number of vertical layers if the dynamic pressure is properly discretized. In this study, we explore the possibility that the solution for the dynamic pressure field may, in general, be decimated to

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Jian Shi

Modeling wave effects on storm surge and coastal inundation

A pre-storage, subgrid model for simulating flooding and draining processes in salt marshes

Pressure Decimation and Interpolation (PDI) method for a baroclinic non-hydrostatic model

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