1st Edition
Computational Fluid Dynamics Techniques
890 Pages
by
CRC Press
The progress made in the CFD field mandates a review of new trends and directions, and this volume covers some of the significant contributions made in the last decade in a large number of branches of CFD. Topics include: finite difference, finite volume and finite element methods for steady and unsteady, inviscid and viscous external and internal flows, spanning a wide range of Mach and Reynolds numbers.
Preface, List of Contributors, Section I: Computational Techniques For Transonic Flows, Section II: Computational Techniques For Unsteady Flows, Section III: Computational Techniques For Hypersonic Flows, Section IV: Computational Techniques For The Euler Equations, Section V: Computational Techniques For The Incompressible Navier-Stokes Equations, Section VI: Computational Techniques For The Compressible Navier-Stokes Equations, Section VII: Computational Techniques For Turbulent Flows, Section VIII: Convergence Acceleration Techniques, Section IX: Grid Generation Techniques, Section X: Flow Control And Design Problems, Index
Biography
W.G. Habashi, Professor Concordia University and Director-Industry CERCA (Centre for Research on Computation and its Application), Montreal, Canada. M.M. Hafez, Professor University of California.