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October 13, 2025Open Access

Structure-preserving nodal DG method for the Euler equations with gravity: well-balanced, entropy stable, and positivity preserving

Key Points

The proposed DG scheme ensures entropy stability, preserving density and pressure positivity during simulations.
It utilizes a nodal DG framework to design a careful source term discretization using entropy conservative fluxes.
The methodology is the first to achieve well-balanced hydrostatic equilibrium states while meeting stability criteria.
Numerical examples validate the robustness and efficiency of the proposed approach in practical applications.

Abstract

We propose an entropy stable and positivity preserving discontinuous Galerkin (DG) scheme for the Euler equations with gravity, which is also well-balanced for hydrostatic equilibrium states. To achieve these properties, we utilize the nodal DG framework and carefully design the source term discretization using entropy conservative fluxes. Furthermore, we demonstrate that the proposed methodology is compatible with a positivity preserving scaling limiter, ensuring positivity of density and pressure under an appropriate CFL condition. To the best of our knowledge, this is the first DG scheme to simultaneously achieve these three properties with theoretical justification. Numerical examples further demonstrate its robustness and efficiency.

Structure-preserving nodal DG method for the Euler equations with gravity: well-balanced, entropy stable, and positivity preserving

Key Points

Abstract

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