Convergence of discontinuous Galerkin schemes for the Euler equations via dissipative weak solutions
作者:
Highlights:
• Introduction of dissipative weak solutions for the Euler equations in the framework of high-order FE methods.
• First investigation of convergence of high-order FE schemes in terms of dissipative weak solutions for the Euler equations.
• Consistency analysis of high-order DG methods without any underlying smoothness assumptions.
• Recipe of obtaining a convergence result in terms of dissipative weak solutions.
• Numerical validation of convergence using Cesaro averages for the Kelvin–Helmholtz problem.
摘要
•Introduction of dissipative weak solutions for the Euler equations in the framework of high-order FE methods.•First investigation of convergence of high-order FE schemes in terms of dissipative weak solutions for the Euler equations.•Consistency analysis of high-order DG methods without any underlying smoothness assumptions.•Recipe of obtaining a convergence result in terms of dissipative weak solutions.•Numerical validation of convergence using Cesaro averages for the Kelvin–Helmholtz problem.
论文关键词:Euler equations,Dissipative weak solutions,Convergence analysis,Discontinuous Galerkin,Structure preserving
论文评审过程:Received 16 March 2022, Revised 20 July 2022, Accepted 23 August 2022, Available online 5 September 2022, Version of Record 5 September 2022.
论文官网地址:https://doi.org/10.1016/j.amc.2022.127508
