Synopses & Reviews
The ability to actively or passively manipulate a flow field to bring about a desired change is of immense technological and economical importance. This volume provides a thorough, up-to-date treatment of the basics of flow control and control practices that can be used to produce desired effects. The author explores the frontiers of flow control strategies, especially as applied to turbulent flows. Intended for engineering and physics students, researchers, and practitioners, Flow Control brings together in a single source a wealth of state-of-the-art information on this very active field.
Review
"...very well written with an enjoyable style...certainly one of the best books this reviewer has read in recent years. It will remain on my closest shelf to be consulted at any moment on any topic it covers." Applied Mechanics Reviews"I would certainly recommend the book, at the very least as a useful source of information. but also as a thought provoking read for all those interested in the field." The Aeronautical Journal Mar 2001"This is a very interesting book, and a charming one...it is a pleasure to recommend this book to anyone seriously interested in these clever techniques." SIAM Reviews
Synopsis
A thorough treatment of the basics of flow control and flow control practices.
Synopsis
This book provides a thorough, up-to-date treatment of the basics of flow control and control practices that can be used to produce desired effects. Among topics covered are transition delay, separation prevention, drag reduction, lift augmentation, turbulence suppression, noise abatement, and heat and mass transfer enhancement. The final chapter explores the frontiers of flow control strategies, especially as applied to turbulent flows.Intended for engineering students, researchers, and practitioners, Flow Control brings together in a single source a wealth of information on current practices and state-of-the-art developments in this very active field.
About the Author
Mohamed Gad-el-Hak is currently the Inez Caudill Eminent Professor of Biomedical Engineering and Chair of Mechanical Engineering at Virginia Commonwealth University. He is a fellow of the American Physical Society, the American Society of Mechanical Engineers, and the American Academy of Mechanics. In 1998, Professor Gad-el-Hak was named the Fourteenth ASME Freeman Scholar. In 1999, he was awarded the prestigious Alexander von Humboldt Prize, Germany's highest research award for senior U.S. scientists and scholars in all disciplines. In 2002, he was named ASME Distinguished Lecturer, as well as inducted into the Johns Hopkins University Society of Scholars.
Table of Contents
Preface; Nomenclature; 1. Introduction; 2. Governing equations; 3. Unifying principles; 4. Coherent structures; 5. Reynolds number effects; 6. Transition control; 7. Compliant coatings; 8. Separation control; 9. Low-Reynolds-number aerodynamics; 10. Drag reduction; 11. Mixing enhancement; 12. Noise reduction; 13. Microelectromechanical systems; 14. Frontiers of flow control; Epilogue; Bibliography; Index.