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Christian Klingenberg学术报告
发表时间:2017-10-27 阅读次数:34次

题目:The Compressible Euler equations with Gravity: Well-balanced Schemes and All Mach Number Solvers

报告人:Christian Klingenberg (Wuerzburg University,德国)

地点:宁静楼104 室

时间:2017/10/27 (星期五) 11:00~12:00 

报告摘要: 

We consider astrophysical systems that are modeled by the multidimensional Euler equations with gravity. 

First for the homogeneous Euler equations we look at flow in the low Mach number regime. Here for conventional finite volume discretization one has excessive dissipation in this regime. We identify inconsistent scaling for low Mach numbers of the numerical flux function as the origin of this problem. Based on the Roe solver a technique that allows to correctly represent low Mach number flows with a discretization of the compressible Euler equations is proposed. We analyze properties of this scheme and demonstrate that its limit yields a discretization of the incompressible limit system. 

Next for the Euler equations with gravity we seek well-balanced methods. We describe a numerical discretization of the compressible Euler equations with a gravitational potential. A pertinent feature of the solutions to these inhomogeneous equations is the special case of stationary solutions with zero velocity, described by a nonlinear PDE, whose solutions are called hydrostatic equilibria. We present well-balanced methods, for which we can ensure robustness, accuracy and stability, since it satisfies discrete entropy inequalities. 

We will then present work in progress where we combine the two methods above. This is joint work among others with Fritz Röpke, Christophe Berthon and Markus Zenk.. 
个人简历 

Klingenberg 博士毕业于纽约大学Courant Institut of Mathematical Sciences,师从著名数学家Cathleen Morawetz。 1995年起成为德国Würzburg大学数学系的正教授。Klingenberg教授在双曲守恒律理论和应用方面有着多方面的贡献,特别是和宇宙演化过程有关的双曲平衡律方程的计算方面有重要的研究成果。 

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