二维不可压热传导黏性流体边界层的数学分析

详细信息    查看全文 | 推荐本文 |

英文篇名：Mathematical analysis of boundary layers in two-dimensional incompressible viscous heat conducting flows 作者：王亚光 ; 朱世勇 英文作者：Yaguang Wang;Shiyong Zhu; 关键词：Navier-Stokes-Fourier方程 ; 速度层与温度层 ; 适定性 ; 解的爆破 英文关键词：Navier-Stokes-Fourier equations;;viscous layer and thermal layer;;well-posedness;;blowup of solutions 中文刊名：JAXK 英文刊名：Scientia Sinica(Mathematica) 机构：上海交通大学数学科学学院科学工程计算教育部重点实验室; 出版日期：2019-01-05 15:50 出版单位：中国科学:数学 年：2019 期：v.49 基金：国家自然科学基金(批准号:11631008和11826019)资助项目 语种：中文; 页：JAXK201902012 页数：14 CN：02 ISSN：11-5836/O1 分类号：164-177

摘要

本文总结我们对二维不可压热传导黏性流体的运动在小黏性和小热传导极限下的边界层的数学理论分析.在黏性系数和热传导系数为同阶小量的假设下,首先利用多尺度方法得到二维不可压热传导黏性流场的速度边界层和温度边界层所满足的方程;其次在边界层切向速度场关于法向变量单调的假设下,通过运用Crocco变换及能量方法得到此边界层方程在有限阶光滑函数类中的局部适定性;在速度场没有单调性假设的情形下,利用Littlewood-Paley理论建立此边界层方程在关于切向变量解析的函数类中的局部适定性;最后对于一类非单调的解析初值,利用Lyapunov泛函方法得到此边界层方程的解在有限时间内发生爆破的结果,这说明前面得到的解析解一般只能是局部存在的.
        This paper is to review our recent study on the well-posedness and blowup of the boundary layer equations in small viscosity and heat conductivity limit for the two-dimensional incompressible viscous heat conducting flows near a physical boundary. In the case that the viscosity and heat conductivity have the same scale,first we derive the boundary layer equations of the viscous layer and thermal layer for the incompressible NavierStokes-Fourier equations by multi-scale analysis, and then we shall review a well-posedness result established under the monotonicity condition of tangential velocity by using the Crocco transformation and the energy method. After that, when the tangential velocity does not satisfy the monotonicity assumption, we shall present a well-posedness result when the data are analytic with respect to the tangential variable, by using the LittlewoodPaley theory. We also present a blowup result in a finite time by introducing a Lyapunov functional, when the monotonicity condition is violated for the initial velocity. This shows that the analytic solution which we obtained exists in a finite time only in general.

引文

1 Schlichting H,Gersten K.Boundary-Layer Theory,Enlarged Edition.New York:Springer-Verlag,2000
    2 Prandtl L.über Flüssigkeitsbewegung bei sehr kleiner Reibung.In:Verhandlungen des III Int Math Kongr,Heidelberg.Leipzig:Teubner,1905,484-491
    3 Oleinik O A,Samokhin V N.Mathematical Models in Boundary Layer Theory.Applied Mathematics and Mathematical Computation,vol.15.Boca Raton:Chapman&Hall/CRC,1999
    4 Oleinik O A.The Prandtl system of equations in boundary layer theory.Soviet Math Dokl,1963,4:583-586
    5 Alexandre R,Wang Y G,Xu C J,et al.Well-posedness of the Prandtl equation in Sobolev spaces.J Amer Math Soc,2015,28:745-784
    6 Masmoudi N,Wong T K.Local-in-time existence and uniqueness of solutions to the Prandtl equations by energy methods.Comm Pure Appl Math,2015,68:1683-1741
    7 Xin Z P,Zhang L Q.On the global existence of solutions to the Prandtl’s system.Adv Math,2004,181:88-133
    8 Sammartino M,Caflisch R E.Zero viscosity limit for analytic solutions,of the Navier-Stokes equation on a half-space,I:Existence for Euler and Prandtl equations.Comm Math Phys,1998,192:433-461
    9 Lombardo M C,Cannone M,Sammartino M.Well-posedness of the boundary layer equations.SIAM J Math Anal,2003,35:987-1004
    10 Ignatova M,Vicol V.Almost global existence for the Prandtl boundary layer equations.Arch Ration Mech Anal,2016,220:809-848
    11 Zhang P,Zhang Z F.Long time well-posedness of Prandtl system with small and analytic initial data.J Funct Anal,2016,270:2591-2615
    12 Chen D X,Wang Y X,Zhang Z F.Well-posedness of the linearized Prandtl equation around a non-monotonic shear flow.Ann Inst H Poincaré Anal Non Linéaire,2018,35:1119-1142
    13 Gérard-Varet D,Masmoudi N.Well-posedness for the Prandtl system without analyticity or monotonicity.Ann Sci′Ecole Norm Sup(4),2015,48:1273-1325
    14 Li W X,Yang T.Well-posedness in Gevery space for the Prandtl system with non-degenerate critical points.ArXiv:1609.08430,2016
    15 E W,Engquist B.Blowup of solutions of the unsteady Prandtl’s equation.Comm Pure Appl Math,1997,50:1287-1293
    16 Gérard-Varet D,Dormy E.On the ill-posedness of the Prandtl equation.J Amer Math Soc,2010,23:591-609
    17 Kukavica I,Vicol V,Wang F.The van Dommelen and Shen singularity in the Prandtl equations.Adv Math,2017,307:288-311
    18 Liu C J,Wang Y G,Yang T.On the ill-posedness of the Prandtl equations in three-dimensional space.Arch Ration Mech Anal,2016,220:83-108
    19 Liu C J,Wang Y G,Yang T.A well-posedness theory for the Prandtl equations in three space variables.Adv Math,2017,308:1074-1126
    20 Liu C J,Wang Y G.Derivation of Prandtl boundary layer equations for the incompressible Navier-Stokes equations in a curved domain.Appl Math Lett,2014,34:81-85
    21 Guo Y,Nguyen T.A note on Prandtl boundary layers.Comm Pure Appl Math,2011,64:1416-1438
    1)Wang Y G, Zhu S Y. Well-posedness of thermal Prandtl system with monotonic initial data. In preparation.
    2)Wang Y G, Zhu S Y. Well-posedness of thermal Prandtl system with analytic initial data. Preprint.
    3)Wang Y G, Zhu S Y. Blowup of solutions to the thermal Prandtl equations. Preprint.