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Conservative Explicit Local Time-stepping Schemes for the Shallow Water Equations

  • Speaker: Lili JU (University of South Carolina)

  • Time: Jul 2, 2018, 10:00-11:00

  • Location: Conference Room 415, Huiyuan 3#

In this talk we present explicit local time-stepping schemes with second and third order accuracy for the shallow water equations. The system is discretized in space by a C-grid staggering method, namely the TRiSK scheme adopted in MPAS-Ocean, a global ocean model with the capability of resolving multiple resolutions within a single simulation. The time integrations are designed based on the strong stability preserving Runge-Kutta methods, but different time step sizes can be used in different regions of the domain and are only restricted by respective local CFL conditions. The proposed local time-stepping schemes preserve all important properties in the discrete sense, such as exact conservation of the mass and potential vorticity and conservation of the total energy within time-truncation errors. Various numerical examples are tested to illustrate the performance of the proposed algorithms.