Weak solutions to the heat conducting compressible self-gravitating flows in time-dependent domains

Mathematical Models and Methods in Applied Sciences Pub Date : 2024-03-25 DOI:10.1142/s0218202524500118
Kuntal Bhandari, Bingkang Huang, Šárka Nečasová
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Abstract

In this paper, we consider the heat-conducting compressible self-gravitating fluids in time-dependent domains, which typically describe the motion of viscous gaseous stars. The flow is governed by the 3D Navier–Stokes–Fourier–Poisson equations where the velocity is supposed to fulfill the full-slip boundary condition and the temperature on the boundary is given by a non-homogeneous Dirichlet condition. We establish the global-in-time weak solution to the system. Our approach is based on the penalization of the boundary behavior, viscosity, and the pressure in the weak formulation. Moreover, to accommodate the non-homogeneous boundary heat flux, the concept of ballistic energy is utilized in this work.

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随时间变化的域中热传导可压缩自重力流的弱解
在本文中,我们考虑了随时间变化的域中的导热可压缩自重力流体,这种流体通常描述粘性气态星体的运动。流动受三维纳维-斯托克斯-傅里叶-泊松方程控制,其中速度应满足全滑边界条件,边界上的温度由非均质狄利克特条件给出。我们建立了该系统的全局时间弱解。我们的方法基于对弱公式中的边界行为、粘度和压力的惩罚。此外,为了适应非均质边界热通量,本研究还采用了弹道能的概念。
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Mathematical Models and Methods in Applied Sciences
Mathematical Models and Methods in Applied Sciences
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