25th Aiaa Fluid Dynamics Conference








Computational Fluid Dynamics for the 21st Century

Author : Mohamed Hafez

Publisher : Springer Science & Business Media

Page : 412 pages

File Size : 39,91 MB

Release : 2013-03-09

Category : Technology & Engineering

ISBN : 3540449590

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Book Description

This volume contains new trends of computational fluid dynamics for the 21st century and consists of papers especially useful to the younger generation of scientists and engineers in this field. Topics include cartesian, gridless and higher-order schemes, and flow-visualization techniques.



Discovery

Author : United States Air Force Academy

Publisher :

Page : 278 pages

File Size : 12,41 MB

Release :

Category : Aeronautics, Military

ISBN :

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Frontiers of Computational Fluid Dynamics 2006

Author : David A. Caughey

Publisher : World Scientific

Page : 466 pages

File Size : 30,7 MB

Release : 2005

Category : Mathematics

ISBN : 9812703187

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Book Description

The series of volumes to which this book belongs honors contributors who have made a major impact in computational fluid dynamics. This fourth volume in the series is dedicated to David Caughey on the occasion of his 60th birthday. The first volume was published in 1994 and was dedicated to Prof Antony Jameson. The second, dedicated to Earl Murman, was published in 1998. The third volume was dedicated to Robert MacCormack in 2002. Written by leading researchers from academia, government laboratories, and industry, the contributions in this volume present descriptions of the latest developments in techniques for numerical analysis of fluid flow problems, as well as applications to important problems in industry.



Progress in Hybrid RANS-LES Modelling

Author : Sharath Girimaji

Publisher : Springer

Page : 481 pages

File Size : 26,15 MB

Release : 2015-02-20

Category : Technology & Engineering

ISBN : 331915141X

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Book Description

This book gathers the proceedings of the Fifth Symposium on Hybrid RANS-LES Methods, which was held on March 19-21 in College Station, Texas, USA. The different chapters, written by leading experts, reports on the most recent developments in flow physics modelling, and gives a special emphasis to industrially relevant applications of hybrid RANS-LES methods and other turbulence-resolving modelling approaches. The book addresses academic researchers, graduate students, industrial engineers, as well as industrial R&D managers and consultants dealing with turbulence modelling, simulation and measurement, and with multidisciplinary applications of computational fluid dynamics (CFD), such as flow control, aero-acoustics, aero-elasticity and CFD-based multidisciplinary optimization. It discusses in particular advanced hybrid RANS-LES methods. Further topics include wall-modelled Large Eddy Simulation (WMLES) methods, embedded LES, and a comparison of the LES methods with both hybrid RANS-LES and URANS methods. Overall, the book provides readers with a snapshot on the state-of-the-art in CFD and turbulence modelling, with a special focus to hybrid RANS-LES methods and their industrial applications.



Elliptic Marching Methods and Domain Decomposition

Author : Patrick J. Roache

Publisher : CRC Press

Page : 212 pages

File Size : 35,22 MB

Release : 1995-06-29

Category : Mathematics

ISBN : 9780849373787

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Book Description

One of the first things a student of partial differential equations learns is that it is impossible to solve elliptic equations by spatial marching. This new book describes how to do exactly that, providing a powerful tool for solving problems in fluid dynamics, heat transfer, electrostatics, and other fields characterized by discretized partial differential equations. Elliptic Marching Methods and Domain Decomposition demonstrates how to handle numerical instabilities (i.e., limitations on the size of the problem) that appear when one tries to solve these discretized equations with marching methods. The book also shows how marching methods can be superior to multigrid and pre-conditioned conjugate gradient (PCG) methods, particularly when used in the context of multiprocessor parallel computers. Techniques for using domain decomposition together with marching methods are detailed, clearly illustrating the benefits of these techniques for applications in engineering, applied mathematics, and the physical sciences.