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Large Eddy Simulation for Incompressible Flows

An Introduction

  • Book
  • © 2001

Overview

Authors:
  1. Pierre Sagaut

    1. DSNA/ETRI, ONERA (Office National d’Etudes et de Recherches Aerospatiale), Chatillon, France

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  • This is the first concise textbook on Large-Eddy Simulation, a very important method in scientific computing and engineering.
  • Includes supplementary material: sn.pub/extras

Part of the book series: Scientific Computation (SCIENTCOMP)

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Table of contents (11 chapters)

  1. Front Matter

    Pages I-XV
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  2. Introduction

    • Pierre Sagaut
    Pages 1-8

  3. Formal Introduction to Scale Separation: Band-Pass Filtering

    • Pierre Sagaut
    Pages 9-30

  4. Application to Navier—Stokes Equations

    • Pierre Sagaut
    Pages 31-61

  5. Functional Modeling (Isotropic Case)

    • Pierre Sagaut
    Pages 63-139

  6. Functional Modeling: Extension to Anisotropic Cases

    • Pierre Sagaut
    Pages 141-159

  7. Structural Modeling

    • Pierre Sagaut
    Pages 161-203

  8. Numerical Solution: Interpretation and Problems

    • Pierre Sagaut
    Pages 205-220

  9. Analysis and Validation of Large-Eddy Simulation Data

    • Pierre Sagaut
    Pages 221-230

  10. Boundary Conditions

    • Pierre Sagaut
    Pages 231-245

  11. Implementation

    • Pierre Sagaut
    Pages 247-255

  12. Examples of Applications

    • Pierre Sagaut
    Pages 257-279

  13. Back Matter

    Pages 281-319
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Keywords

About this book

Still today, turbulence in fluids is considered as one of the most difficult problems of modern physics. Yet we are quite far from the complexity of microscopic molecular physics, since we only deal with Newtonian mechanics laws applied to a continuum, in which the effect of molecular fluctuations has been smoothed out and is represented by molecular-viscosity coefficients. Such a system has a dual behaviour of determinism in the Laplacian sense, and extreme sensitivity to initial conditions because of its very strong non­ linear character. One does not know, for instance, how to predict the critical Reynolds number of transition to turbulence in a pipe, nor how to compute precisely the drag of a car or an aircraft, even with today's largest computers. 1 We know, since the meteorologist Richardson, numerical schemes allow­ ing us to solve in a deterministic manner the equations of motion, starting with a given initial state and with prescribed boundary conditions. They are based on moment um and energy balances. However, such aresolution requires formidable computing power, and is only possible for low Reynolds numbers. These Direct-Numerical Simulations may involve calculating the interaction of several million interacting sites. Generally, industrial, natural, or experimental configurations involve Reynolds numbers that are far too large to allow direct simulations,2 and the only possibility then is Large­ Eddy Simulation, where the small-scale turbulent fluctuations are themselves smoothed out and modelled via eddy-viscosity and diffusivity assumptions.

Reviews

"Falling somewhere between a textbook and a monograph, the book makes a valuable contribution to the literature on LES by collating a vast amount of material in a concise manner and by placing much of it on a sound and uniform mathematical footing. The reasons why LES is not a simple panacea, but instead is a rather challenging area for serious study, are made abundantly clear. Inevitably the book can offer no more than a snapshot of a fast-evolving field. Nevertheless it does so with commendable objectivity, and contains enough reference material to make it a necessary addition to any library on the subject." (Journal of Fluid Mechanics 51, 2004)

"[...] offers a comprehensive introduction and review of this developing subject [...] Readers have the benefit of insider comment at a high level. The author adds his own developments and makes a charming apology in the Preface for changing and reducing some original proofs. In a rapidly developing field, this is a timely book worthy of future updating editions." (Mathematical Reviews 2002f)

"An emphasis on theoretical analysis and underlying assumptions runs through the whole book, but with a keen eye on practical results, as you would expect from the French school and ONERA in particular." (Michael O'Caroll, MathSciNet on 1st edition)

"The book gives a complete account of this young but very rich discipline. The topics are well chosen and both the mathematical ideas and the applications are presented with care. The book addresses researchers as well as graduate students and engineers." (CFD Online, Oct. 21. 2002)

"Overall the book is a very relevant contribution to the field of LES and I read it with pleasure and benefit. It constitutes a worthy reference book for scientists and engineers interested in or practising LES and may serve as a textbook for a postgraduate course on the subject." (Measurement Science and Technology, 2001)

"The book can be strongly recommended to postgraduate students, researches and engineers in all fields where statistical turbulence modeling fails." (European Journal of Mechanics B, 2001)

"[…] Pierre Sagaut’s book […] is still the only available reference presenting a systematic organized discussion of the state of the art of LES. I very highly recommend it as of fundamental interest to graduate students and basic research scientists, as well as professionals involved in the design and analysis of complex turbulent flows." (Fernando F. Grinstein (U.S. Naval Research Laboratory), AIAA Journal 2005, vol. 43, page 221-222)

From the reviews of the third edition:

"The book presents a comprehensive introduction to large eddy simulation (LES) for incompressible turbulent flows. It is the third and once again enlarged edition … . it should be mentioned that the book contains an extensive bibliography with more than 800 references." (Kai Schneider, Zentralblatt MATH, Vol. 1091 (17), 2006)

"Among others, these [LES] are areas to which Sagaut and his co-workers have made significant research contributions... Thus the book... has much to offer to one of the most pressing issues of our times." (MathSciNet on 3rd edition)

"This new [3rd] edition of Pierre Sagaut's ... book is timely and extremely welcome to the fluid dynamics community." (F. Grinstein, AIAA Journal 2008 on third edition)

Authors and Affiliations

  • DSNA/ETRI, ONERA (Office National d’Etudes et de Recherches Aerospatiale), Chatillon, France

    Pierre Sagaut

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