An IMEX-DG solver for atmospheric dynamics simulations with adaptive mesh refinement
- Resource Type
- Working Paper
- Authors
- Orlando, Giuseppe; Benacchio, Tommaso; Bonaventura, Luca
- Source
- Journal of Computational and Applied Mathematics 427 (2023): 115124
- Subject
- Mathematics - Numerical Analysis
- Language
We present an accurate and efficient solver for atmospheric dynamics simulations that allows for non-conforming mesh refinement. The model equations are the conservative Euler equations for compressible flows. The numerical method is based on an $h-$adaptive Discontinuous Galerkin spatial discretization and on a second order Additive Runge Kutta IMEX method for time discretization, especially designed for low Mach regimes. The solver is implemented in the framework of the $deal.II$ library, whose mesh refinement capabilities are employed to enhance efficiency. A number of numerical experiments based on classical benchmarks for atmosphere dynamics demonstrate the properties and advantages of the proposed method.