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Asymptotic Theory of Separated Flows
This book presents the asymptotic theory of separate flows in a systematic account.
Vladimir V. Sychev (Author), Anatoly I. Ruban (Author), Victor V. Sychev (Author), Georgi L. Korolev (Author), Elena V. Maroko (Translated by)
9780521455305, Cambridge University Press
Hardback, published 28 August 1998
348 pages, 107 b/w illus.
24.2 x 16.2 x 2.4 cm, 0.626 kg
Review of the hardback: 'With this book, the authors make a notable contribution to the field.' Journal of Mechanical Engineering Science
Boundary-layer separation from a rigid body surface is one of the fundamental problems of classical and modern fluid dynamics. The major successes achieved since the late 1960s in the development of the theory of separated flows at high Reynolds numbers are in many ways associated with the use of asymptotic methods. The most fruitful of these has proved to be the method of matched asymptotic expansions, which has been widely used in mechanics and mathematical physics. There have been many papers devoted to different problems in the asymptotic theory of separated flows and we can confidently speak of the appearance of a very productive direction in the development of theoretical hydrodynamics. This book will present this theory in a systematic account. The book will serve as a useful introduction to the theory, and will draw attention to the possibilities that application of the asymptotic approach provides.
Preface
1. The theory of separation from a smooth surface
2. Flow separation from corners of a body contour
3. Flow in the vicinity of the trailing edge of a thin airfoil
4. Separation at the leading edge of a thin airfoil
5. The theory of unsteady separation
6. The asymptotic theory of flow past blunt bodies
7. Numerical methods for solving the equations of interaction theory
References.
Subject Areas: Fluid mechanics [PHDF], Applied mathematics [PBW]