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Fluid Dynamics

Theory, Computation, and Numerical Simulation

  • Textbook
  • © 2001

Overview

Authors:
  1. C. Pozrikidis

    1. University of California, San Diego, La Jolla, USA

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  • An accessible introduction to theoretical and computational fluid dynamics (CFD), written from a modern perspective that unifies theory and numerical practice
  • Few prerequisites needed for comprehension
  • Supplemented by free web-based software library, FDLIB, and now by MatLab

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Table of contents (12 chapters)

  1. Front Matter

    Pages i-x
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  2. Fluid Motion: Introduction to Kinematics

    • C. Pozrikidis
    Pages 1-48

  3. Fluid Motion: More on Kinematics

    • C. Pozrikidis
    Pages 49-110

  4. Flow Computation based on Kinematics

    • C. Pozrikidis
    Pages 111-163

  5. Forces and stresses

    • C. Pozrikidis
    Pages 164-207

  6. Hydrostatics

    • C. Pozrikidis
    Pages 208-251

  7. Equation of motion and vorticity transport

    • C. Pozrikidis
    Pages 252-305

  8. Channel, tube, and film flows

    • C. Pozrikidis
    Pages 306-363

  9. Finite-Difference Methods

    • C. Pozrikidis
    Pages 364-409

  10. Flow at Low Reynolds Numbers

    • C. Pozrikidis
    Pages 410-474

  11. Flow at high Reynolds numbers

    • C. Pozrikidis
    Pages 475-547

  12. Vortex Motion

    • C. Pozrikidis
    Pages 548-605

  13. Aerodynamics

    • C. Pozrikidis
    Pages 606-650

  14. Back Matter

    Pages 651-675
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Keywords

About this book

Ready access to computers at an institutional and personal level has defined a new era in teaching and learning. The opportunity to extend the subject matter of traditional science and engineering disciplines into the realm of scientific computing has become not only desirable, but also necessary. Thanks to port ability and low overhead and operating costs, experimentation by numerical simulation has become a viable substitute, and occasionally the only alternative, to physical experiment at ion. The new environment has motivated the writing of texts and mono­ graphs with a modern perspective that incorporates numerical and com­ puter programming aspects as an integral part of the curriculum: meth­ ods, concepts, and ideas should be presented in a unified fashion that motivates and underlines the urgency of the new elements, but does not compromise the rigor of the classical approach and does not oversimplify. Interfacing fundamental concepts and practical methods of scientific computing can be done on different levels. In one approach, theory and implement at ion are kept complementary and presented in a sequential fashion. In a second approach, the coupling involves deriving compu­ tational methods and simulation algorithms, and translating equations into computer code instructions immediately following problem formu­ lations. The author of this book is a proponent of the second approach and advocates its adoption as a means of enhancing learning: interject­ ing methods of scientific computing into the traditional discourse offers a powerful venue for developing analytical skills and obtaining physical insight.

Authors and Affiliations

  • University of California, San Diego, La Jolla, USA

    C. Pozrikidis

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