Statistical Theory and Modeling of Turbulent Flows
Providing a solid foundation in the key topics in turbulence, this valuable reference resource enables the reader to become a knowledgeable developer of predictive tools.
Format: Hardcover, English, 400 pages
Other Versions: Paperback
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Most natural and industrial flows are turbulent. The atmosphere and oceans, automobile and aircraft engines, all provide examples of this ubiquitous phenomenon. In recent years, turbulence has become a very lively area of scientific research and application, and this work offers a grounding in the subject of turbulence, developing both the physical insight and the mathematical framework needed to express the theory. Providing a solid foundation in the key topics in turbulence, this valuable reference resource enables the reader to become a knowledgeable developer of predictive tools.
This central and broad ranging topic would be of interest to graduate students in a broad range of subjects, including aeronautical and mechanical engineering, applied mathematics and the physical sciences. The accompanying solutions manual to the text also makes this a valuable teaching tool for lecturers and for practising engineers and scientists in computational and experimental and experimental fluid dynamics.
Table of Contents
|2||Lagrangian and Eulerian finite elements in one dimension|
|6||Solution methods and stability|
|7||Arbitrary Lagrangian Eulerian formulations|
|9||Beams and shells|
|Appendix 1||Voigt notation|
|Appendix 3||Element shape functions|