Fluid Dynamics with a Computational Perspective

Paperback / softback

Main Details

Title Fluid Dynamics with a Computational Perspective
Authors and Contributors      By (author) Paul A. Durbin
By (author) Gorazd Medic
Physical Properties
Format:Paperback / softback
Pages:362
Dimensions(mm): Height 254,Width 178
Category/GenreMechanical engineering
ISBN/Barcode 9781107699311
ClassificationsDewey:620.10640151
Audience
Professional & Vocational

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 30 January 2014
Publication Country United Kingdom

Description

Modern fluid dynamics is a combination of traditional methods of theory and analysis and newer methods of computation and numerical simulation. Fluid Dynamics with a Computational Perspective synthesizes traditional theory and modern computation. It is neither a book on methods of computation, nor a book on analysis; it is about fluid dynamics. The book is ideal for a course on fluid dynamics. Early chapters review the laws of fluid mechanics and survey computational methodology, following chapters study flows in which the Reynolds number increases from creeping flow to turbulence, followed by a thorough discussion of compressible flow and interfaces. Whereas all significant equations and their solutions are presented, their derivations are informal. References for detailed derivations are provided. A chapter on intermediate Reynolds number flows provides illustrative case studies by pure computation. Elsewhere, computations and theory are interwoven.

Author Biography

Paul Durbin is the Martin C. Jischke professor of Aerospace Engineering at Iowa State University. He was previously a professor in Mechanical Engineering at Stanford University. His research interests are in turbulence and transition, including computation, theory and analytical modeling. He is a member of AIAA, ASME, and a Fellow of APS. He is an associate editor of the ASME Journal of Fluids Engineering. He has extensive experience in teaching fluid dynamics and has written Statistical Theory and Modeling for Turbulent Flow (with John Wiley) and numerous articles. Gorazd Medic is a Research Associate at the Center for Integrated Turbulence Simulations of the Mechanical Engineering Department at Stanford University. His research interests are in turbulence, numerical methods, and high performance computing. He is a member of AIAA, ASME, APS, and SIAM. He has extensive experience in computational fluid dynamics for a variety of applications ranging from aircraft engines to biomechanical systems.