Mathematical Models in Boundary Layer Theory

Since Prandtl first suggested it in 1904, boundary layer theory has become a fundamental aspect of fluid dynamics. Although a vast literature exists for theoretical and experimental aspects of the theory, for the most part, mathematical studies can be found only in separate, scattered articles. Mathematical Models in Boundary Layer Theory offers the first systematic exposition of the mathematical methods and main results of the theory.Beginning with the basics, the authors detail the techniques and results that reveal the nature of the equations that govern the flow within boundary layers and ultimately describe the laws underlying the motion of fluids with small viscosity. They investigate the questions of existence and uniqueness of solutions, the stability of solutions with respect to perturbations, and the qualitative behavior of solutions and their asymptotics. Of particular importance for applications, they present methods for an approximate solution of the Prandtl system and a subsequent evaluation of the rate of convergence of the approximations to the exact solution.Written by the world's foremost experts on the subject, Mathematical Models in Boundary Layer Theory provides the opportunity to explore its mathematical studies and their importance to the nonlinear theory of viscous and electrically conducting flows, the theory of heat and mass transfer, and the dynamics of reactive and muliphase media. With the theory's importance to a wide variety of applications, applied mathematicians-especially those in fluid dynamics-along with engineers of aeronautical and ship design will undoubtedly welcome this authoritative, state-of-the-art treatise.

O.A. Oleinik is Head of the Department of Differential Equations at the Faculty of Mathematics and Mechanics of Moscow State University, Russia, and a member of the Russian Academy of Sciences. She is widely known for her numerous works on pure and applied mathematics. V.N. Samokhin is Associate Professor of Mathematics at Moscow State University of Printing Arts in Russia.

Preface

Contents

The Navier-Stokes Equations and the Prandtl System

1

(19)

Derivation of the Prandtl System

1

(4)

Solution of the boundary layer system as the first approximation to asymptotic solution of the Navier-Stokes equations near the boundary

5

(3)

Separation of the boundary layer

8

(2)

Setting of the main problems for the equations of boundary layer

10

(4)

Boundary layer equations for non-Newtonian fluids

14

(3)

Boundary layers in magnetohydrodynamics

17

(3)

Stationary Boundary Layer: von Mises Variables

20

(62)

Continuation of two-dimensional boundary layer

20

(25)

Asymptotic behavior of the velocity component along the boundary layer

45

(11)

Conditions for boundary layer separation

56

(6)

Self-similar solutions of the boundary layer equations

62

(4)

Solving the continuation problem by the line method

66

(10)

On three-dimensional boundary layer equations

76

(6)

Comments

80

(2)

Stationary Boundary Layer: Crocco Variables

82

(71)

Axially symmetric stationary boundary layer

82

(24)

Symmetric boundary layer

106

(23)

The problem of continuation of the boundary layer

129

(3)

Weak solutions of the boundary layer system

132

(21)

Nonstationary Boundary Layer

153

(112)

Axially symmetric boundary layer

153

(21)

The continuation problem for a nonstationary axially symmetric boundary layer

174

(8)

Continuation of the boundary layer. Successive approximations

182

(30)

On t-global solutions of the Prandtl system for axially symmetric flows

212

(13)

Stability of solutions of the Prandtl system

225

(4)

Time-periodic solutions of the nonstationary boundary layer system

229

(18)

Solving the nonstationary Prandtl system by the line method in the time variable

247

(18)

Comments

264

(1)

Formation of the Boundary Layer

265

(53)

Solutions and asymptotic expansions for the problem of boundary layer formation : the case of gradual acceleration

265

(28)

Formation of the boundary layer about a body that suddenly starts to move

293

(25)

Comments

317

(1)

Finite Difference Method

318

(22)

Solving the boundary layer continuation problem by the finite difference method

318

(15)

Solving the Prandtl system for axially symmetric flows by the finite difference method

333

(7)

Comments

339

(1)

Diffraction Problems for the Prandtl System

340

(29)

Boundary layer with unknown border between two media

340

(20)

Mixing of two fluids with distinct properties at the interface between two flows

360

(9)

Comments

368

(1)

Boundary Layer in Non-Newtonian Flows

369

(87)

Symmetric boundary layer in pseudo-plastic fluids

369

(23)

Weak solutions of the boundary layer continuation problem for pseudo-plastic fluids

392

(13)

Nonstationary boundary layer for pseudo-plastic fluids

405

(13)

Continuation of the boundary layer in dilatable media

418

(26)

Symmetric boundary layer in dilatable media

444

(12)

Comments

455

(1)

Boundary Layer in Magnetohydrodynamics

456

(33)

Continuation of the MHD boundary layer in ordinary fluids

456

(9)

Solving the equations of the MHD boundary layer in Pseudo-plastic fluids

465

(10)

Self-similar solutions of the MHD boundary layer system for a dilatable fluid

475

(6)

Solving the equations of boundary layer for dilatable conducting fluids in a transversal magnetic field

481

(8)

Comments

488

(1)

Homogenization of Boundary Layer Equations

489

(11)

Homogenization of the Prandtl system with rapidly oscillating injection and Suction

489

(6)

Homogenization of the equations of the MHD boundary layer in a rapidly oscillating magnetic field

495

(5)

Comments

499

(1)

Some Open Problems

500

(4)

References

504

(11)

Index

515

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Mathematical Models in Boundary Layer Theory

Summary

Author Biography

Table of Contents

Supplemental Materials