带有动力学理论产生的滑移边界条件的稳定可压缩纳维-斯托克斯-傅里叶系统

arXiv - MATH - Mathematical Physics Pub Date : 2024-09-18 DOI:arxiv-2409.11809

Renjun Duan, Junhao Zhang

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摘要

本文研究了在通道域$(0,1)\times\mathbb{T}^2$中稳定的可压缩纳维尔-斯托克斯-傅里叶系统的边界值问题，该问题具有一类广义滑移边界条件，Coron （cite{Coron-JSP-1989}）以及后来的Aoki et al （cite{Aoki-Baranger-Hattori-Kosuge-Martalo-Mathiaud-Mieussens-JSP-2017}从玻尔兹曼方程中系统地导出了这类边界条件。我们在壁温接近正常数的条件下，建立了$(L_{0}^{2}\capH^{2}(\Omega))\times V^{3}(\Omega)\times H^{3}(\Omega)$中强解的存在性和唯一性。证明依赖于为相应的线性化问题构建一个新的变分公式，并采用定点论证。主要困难来自速度和温度导数的相互作用，以及边界密度依赖性的影响。

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Steady compressible Navier-Stokes-Fourier system with slip boundary conditions arising from kinetic theory

This paper studies the boundary value problem on the steady compressible Navier-Stokes-Fourier system in a channel domain $(0,1)\times\mathbb{T}^2$ with a class of generalized slip boundary conditions that were systematically derived from the Boltzmann equation by Coron \cite{Coron-JSP-1989} and later by Aoki et al \cite{Aoki-Baranger-Hattori-Kosuge-Martalo-Mathiaud-Mieussens-JSP-2017}. We establish the existence and uniqueness of strong solutions in $(L_{0}^{2}\cap H^{2}(\Omega))\times V^{3}(\Omega)\times H^{3}(\Omega)$ provided that the wall temperature is near a positive constant. The proof relies on the construction of a new variational formulation for the corresponding linearized problem and employs a fixed point argument. The main difficulty arises from the interplay of velocity and temperature derivatives together with the effect of density dependence on the boundary.

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