365体育(中国·官方)平台/网页版-登录入口

365体育(中国·官方)平台/网页版-登录入口

 所在位置:首页 > 博学堂讲座
博学堂讲座
Low Mach number Limit of Steady Thermally Driven Fluid (第786讲)
浏览量:507    发布时间:2024-07-17 15:39:12

报告题目:Low Mach number Limit of Steady Thermally Driven Fluid

报告人:王勇 研究员 (中国科学院数学与系统科学研究院)

报告时间:2024年7月19日(周五)上午10:30-11:30

报告地点:理学楼A110

摘要:In this talk, we establish the existence of strong solutions to the steady non-isentropic compressible Navier-Stokes system with Dirichlet boundary conditions in bounded domains where the fluid is driven by the wall temperature, and justify its low Mach number limit in $L^{infty}$ sense with a rate of convergence. Notably, for the limiting system obtained in the low Mach number limit, the variation of the wall temperature is allowed to be independent of $varepsilon$, and it is worth pointing out that the velocity field $u_{1}$ acts like a ghost since it appears at order $v$ in the expansion and still affects $rho_{0}$ and $theta_{0}$ at $O(1)$ order. For the proof, we design a new expansion, in which the density, velocity and temperature have different expansion form with respect to the Mach number $v$, to guarantee that the density at higher $v$ order is well defined under the Boussinesq relations and the constraint of zero average. We also introduce a new $v$-dependent functional space which allows us to obtain some uniform estimates on high order normal derivatives near the boundary.


报告人介绍:王勇,中国科学院数学与系统科学研究院研究员,博士生导师,其研究工作曾获国家自然科学优秀青年基金等项目资助。主要研究兴趣为可压缩流体方程(如:EulerNavier-Stokes及其耦合模型等)和Boltzmann方程等方程解的适定性和渐近行为。主要论文发表在Comm.Pure Appl.Math.Arch.Ration.Mech.Anal., Adv.Math.Comm.Math.Phys. SIAM J.Math.Anal.等国际著名刊物上。

 

邀请人:王彦霖



博学堂讲座
Low Mach number Limit of Steady Thermally Driven Fluid (第786讲)
浏览量:507    发布时间:2024-07-17 15:39:12

报告题目:Low Mach number Limit of Steady Thermally Driven Fluid

报告人:王勇 研究员 (中国科学院数学与系统科学研究院)

报告时间:2024年7月19日(周五)上午10:30-11:30

报告地点:理学楼A110

摘要:In this talk, we establish the existence of strong solutions to the steady non-isentropic compressible Navier-Stokes system with Dirichlet boundary conditions in bounded domains where the fluid is driven by the wall temperature, and justify its low Mach number limit in $L^{infty}$ sense with a rate of convergence. Notably, for the limiting system obtained in the low Mach number limit, the variation of the wall temperature is allowed to be independent of $varepsilon$, and it is worth pointing out that the velocity field $u_{1}$ acts like a ghost since it appears at order $v$ in the expansion and still affects $rho_{0}$ and $theta_{0}$ at $O(1)$ order. For the proof, we design a new expansion, in which the density, velocity and temperature have different expansion form with respect to the Mach number $v$, to guarantee that the density at higher $v$ order is well defined under the Boussinesq relations and the constraint of zero average. We also introduce a new $v$-dependent functional space which allows us to obtain some uniform estimates on high order normal derivatives near the boundary.


报告人介绍:王勇,中国科学院数学与系统科学研究院研究员,博士生导师,其研究工作曾获国家自然科学优秀青年基金等项目资助。主要研究兴趣为可压缩流体方程(如:EulerNavier-Stokes及其耦合模型等)和Boltzmann方程等方程解的适定性和渐近行为。主要论文发表在Comm.Pure Appl.Math.Arch.Ration.Mech.Anal., Adv.Math.Comm.Math.Phys. SIAM J.Math.Anal.等国际著名刊物上。

 

邀请人:王彦霖




XML 地图