Global Convergence to Compressible Full Navier–Stokes Equations by Approximation with Oldroyd-Type Constitutive Laws

被引：0

作者：

Yue-Jun Peng

Liang Zhao

机构：

[1] Université Clermont Auvergne,Mathematical Modelling and Data Analytics Center

[2] CNRS,undefined

[3] Laboratoire de Mathématiques Blaise Pascal,undefined

[4] Oxford Suzhou Centre for Advanced Research,undefined

来源：

Journal of Mathematical Fluid Mechanics | 2022年 / 24卷

关键词：

Full Navier–Stokes equations; Non-Newtonian fluid; Relaxed Euler systems; Oldroyd derivative; Global convergence; 35B25; 35L60; 35Q30; 76A05;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

We consider smooth solutions to a relaxed Euler system with Oldroyd-type constitutive laws. This system is derived from the one-dimensional compressible full Navier-Stokes equations for a Newtonian fluid by using the Cattaneo–Christov model and the Oldroyd-B model. In a neighborhood of equilibrium states, we construct an explicit symmetrizer and show that the system is symmetrizable hyperbolic with partial dissipation. Moreover, by establishing uniform estimates with respect to the relaxation times, we prove the uniform global existence of smooth solutions and the global-in-time convergence of the system towards the full Navier–Stokes equations.

引用

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