Pub. Date:
Cambridge University Press
Sloshing / Edition 1

Sloshing / Edition 1


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Product Details

ISBN-13: 9780521881111
Publisher: Cambridge University Press
Publication date: 10/31/2009
Pages: 606
Product dimensions: 7.20(w) x 10.00(h) x 1.30(d)

About the Author

Odd M. Faltinsen received his Ph.D. in naval architecture and marine engineering from the University of Michigan in 1971 and has been a professor of marine hydrodynamics at the Norwegian University of Science and Technology since 1974. Dr Faltinsen has experience with a broad spectrum of hydrodynamically related problems for ships and sea structures, including hydroelastic problems. He has published about 300 scientific publications and is the author of the textbooks Sea Loads on Ships and Offshore Structures and Hydrodynamics of High-Speed Marine Vehicles, published by Cambridge University Press in 1990 and 2005, respectively. Faltinsen is a Foreign Associate of the National Academy of Engineering, USA and a Foreign Member of the Chinese Academy of Engineering.

Alexander Timokha obtained his Ph.D. in fluid dynamics from Kiev University in 1988 and, later on, a full doctor of physics and mathematics degree (habilitation) in 1993 at the Institute of Mathematics of the National Academy of Sciences of Ukraine. He is now Leading Researcher and Professor of Applied Mathematics at the Institute of Mathematics. Since 2004, he has been a Visiting Professor at CeSOS, Trondheim, Norway. In the 1980s, he was involved as a consultant of hydrodynamic aspects of spacecraft applications for the famous design offices Yuzhnoye and Salut. Dr Timokha� current research interests lie in mathematical aspects of hydromechanics with emphasis on free-surface problems, in general, and on sloshing, in particular. He has authored more than 120 publications and 2 books.

Table of Contents

1. Sloshing in marine and land-based applications; 2. Governing equations of liquid sloshing; 3. Wave-induced ship motions; 4. Linear natural sloshing modes; 5. Linear modal theory; 6. Viscous wave loads; 7. Multimodal method; 8. Nonlinear asymptotic theories and experiments for a 2D rectangular tank; 9. Non-linear asymptotic theories and experiments for three dimensional sloshing; 10. Computational fluid dynamics; 11. Slamming.

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