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Theory and Computation in Hydrodynamic Stability

2nd Edition

£49.99

Part of Cambridge Monographs on Mechanics

  • Date Published: December 2018
  • availability: In stock
  • format: Paperback
  • isbn: 9781108466721

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  • The study of hydrodynamic stability is fundamental to many subjects, ranging from geophysics and meteorology through to engineering design. This treatise covers both classical and modern aspects of the subject, systematically developing it from the simplest physical problems, then progressing to the most complex, considering linear and nonlinear situations, and analyzing temporal and spatial stability. The authors examine each problem both analytically and numerically. Many relevant fluid flows are treated, including those where the fluid may be compressible, or those from geophysics, or those that require salient geometries for description. Details of initial-value problems are explored equally with those of stability. The text includes copious illustrations and an extensive bibliography, making it suitable for courses on hydrodynamic stability or as an authoritative reference for researchers. In this second edition the opportunity has been taken to update the text and, most importantly, provide solutions to the numerous extended exercises.

    • Includes exercise solutions to help the reader fully understand the material
    • Provides both classical and modern techniques, giving insight into historical as well as state-of-the-art approaches
    • Contains many numerical examples, which can be used by the reader to create their own code
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    Product details

    • Edition: 2nd Edition
    • Date Published: December 2018
    • format: Paperback
    • isbn: 9781108466721
    • length: 562 pages
    • dimensions: 228 x 152 x 26 mm
    • weight: 0.9kg
    • contains: 151 b/w illus. 10 colour illus. 17 tables 80 exercises
    • availability: In stock
  • Table of Contents

    1. Introduction and problem formulation
    2. Temporal stability of inviscid incompressible flows
    3. Temporal stability of viscous incompressible flows
    4. Spatial stability of incompressible flows
    5. Stability of compressible flows
    6. Centrifugal stability
    7. Geophysical flow
    8. Transient dynamics
    9. Nonlinear stability
    10. Transition and receptivity
    11. Direct numerical simulation
    12. Flow control and optimization
    13. Investigating hydrodynamic instabilities with experiments
    Appendix A. Mathematical formulas
    Appendix B. Numerical methods
    Appendix C. Solutions to exercises
    References
    Author index
    Subject index.

  • Authors

    W. O. Criminale, University of Washington
    W. O. Criminale is Professor Emeritus in the Department of Applied Mathematics at the University of Washington. His research focuses on the areas of initial-value problems in shear flows, large-scale oscillations in turbulent flows, mixing, and nonlinear mechanics. Professor Criminale is the recipient of many honors, which include: the Alexander von Humboldt Senior Research Award; Fellow, American Physical Society; Guest Scientist, Stanford–Ames Turbulence Research Center; the Faculty Research Award, Battelle Pacific Northwest Laboratories; and Royal Society Fellow in the UK.

    T. L. Jackson, University of Florida
    T. L. Jackson is a Research Professor in the Department of Mechanical and Aerospace Engineering at the University of Florida. He is currently a Fellow of American Physical Society (APS), an Associate Fellow of American Institute of Aeronautics and Astronautics (AIAA), a member of the Combustion Institute and a member of American Society of Mechanical Engineers (ASME). He was previously an Associate Editor for the AIAA Journal, and he currently serves on the Editorial Advisory Board for the Journal of Propulsion and Power. His expertise is in the area of basic fluid mechanics, combustion, stability, solid propellant combustion, energetic material modeling and the large-scale simulation thereof.

    R. D. Joslin, National Science Foundation, Alexandria, Virginia
    R. D. Joslin is a permanent Program Director in the Engineering Directorate at the US National Science Foundation in Alexandria, Virginia. He manages the Fluid Dynamics Program and other cross-Foundation programs. Dr Joslin was previously a Program Manager at the Office of Naval Research, where he managed the Turbulence, Stratified Wakes, Submarine Maneuvering, Ocean Energy, Multi-Platform Interactions and Supercaviation Programs. He is a member of the American Physical Society (APS), American Society of Mechanical Engineers (ASME) and is an Associate Fellow in the American Institute of Aeronautics and Astronautics (AIAA). His areas of expertise include fundamental fluid mechanics, turbulence and transition, stability theory, DNS/LES/CFD, supercavitation and renewable energy.

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