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Applied Hydrodynamics: An Introduction to Ideal and Real Fluid Flows book cover

1st Edition

Applied Hydrodynamics An Introduction to Ideal and Real Fluid Flows

By Hubert Chanson Copyright 2009
    464 Pages
    by CRC Press

    Fluid dynamics is the engineering science dealing with forces and energies generated by fluids in motion. Fluid dynamics and hydrodynamics play a vital role in everyday life. Practical examples include the flow motion in the kitchen sink, the exhaust fan above the stove, and the air conditioning system in our home. When driving a car, the air flow around the vehicle body induces some drag which increases with the square of the car speed and contributes to excess fuel consumption. Engineering applications encompass fluid transport in pipes and canals, energy generation, environmental processes and transportation (cars, ships, aircrafts). Other applications include coastal structures, wind flow around buildings, fluid circulations in lakes, oceans and atmosphere, and even fluid motion in the human body.

    This textbook deals with the topic of applied hydrodynamics. The lecture material is grouped into two complementary sections: ideal fluid flow and real fluid flow. The former deals with two- and possibly three-dimensional fluid motions that are not subject to boundary friction effects, while the latter considers the flow regions affected by boundary friction and turbulent shear. The lecture material is designed as an intermediate course in fluid dynamics for senior undergraduate and postgraduate students in Civil, Environmental, Hydraulic and Mechanical Engineering. It is supported by notes, applications, remarks and discussions in each chapter. Moreover a series of appendices is added, while some major homework assignments are developed at the end of the book, before the bibliographic references.

    TABLE OF CONTENTS

    Dédicace

    Table of Contents

    Glossary

    List of Symbols

    Acknowledgments

    About the author

    Chapter 1 - Introduction

    Chapter 2 - Fundamental Equations

    Part I - Irrotational Flow Motion of Ideal Fluid

    Chapter I-1 - Introduction to Ideal Fluid Flows

    Chapter I-2 - Ideal Fluid Flows and Irrotational Flow Motion

    Chapter I-3 - Two-Dimensional Flows (1) Basic equations and flow analogies

    Chapter I-4 - Two-Dimensional Flows (2) Basic flow patterns

    Chapter I-5 - Complex potential, velocity potential & Joukowski transformation

    Chapter I-6- Joukowski transformation, theorem of Kutta-Joukowski & lift force on airfoil

    Chapter I-7 - Theorem of Schwarz-Christoffel, free streamlines & applications

    Part II - Real Fluid Flows : Theory and Applications

    II-1 Introduction

    II-2 Turbulence: an introduction

    II-3 Boundary Layer Theory. Application to Laminar Boundary layer Flows

    II-4 Turbulent Boundary layers

    Appendices

    Appendix A - Constants and fluid properties

    Appendix B -Unit conversions

    Appendix C - Mathematics

    Appendix D - The software 2D Flow+

    Appendix E - Whirlpools in the world

    Appendix F - Examples of Civil Engineering structures in the atmospheric boundary layer

    Appendix G - Boundary shear stress measurements with Pitot tubes

    Assignments

    Assignment A - Application to the design of the Alcyone 2

    Assignment B - Applications to Civil Design on the Gold Coast

    Assignment C - Wind flow past a series of circular buildings

    Assignment D - Prototype freighter Testing

    References

    Index of Authors

    Index of Subjects

    Suggestion/Correction form

    Biography

    Hubert CHANSON received a degree of 'Ingénieur Hydraulicien' from the Ecole Nationale Supérieure d'Hydraulique et de Mécanique de Grenoble (France) in 1983 and a degree of 'Ingénieur Génie Atomique' from the 'Institut National des Sciences et Techniques Nucléaires' in 1984. He worked for the industry in France as a R&D engineer at the Atomic Energy Commission from 1984 to 1986, and as a computer professional in fluid mechanics for Thomson-CSF between 1989 and 1990. From 1986 to 1988, he studied at the University of Canterbury (New Zealand) as part of a Ph.D. project.

    Hubert CHANSON is Professor in Hydraulic Engineering and Applied Fluid Mechanics at the University of Queensland since 1990. His research interests include design of hydraulic structures, experimental investigations of two-phase flows, coastal hydrodynamics, water quality modelling, environmental management and natural resources. In 1999 he was awarded a Doctor of Engineering from the University of Queensland for outstanding research achievements in gas-liquid bubbly flows.

    Hubert CHANSON has been active also as consultant for both governmental agencies and private organisations. He is the main author of six books.

    Awards received:

    - The 13th Arthur Ippen award for outstanding achievements in hydraulic engineering (International Association of Hydraulic Engineering & Research)
    - 2004 award for the best practice paper in the Journal of Irrigation and Drainage Engineering (ASCE-EWRI)

     

     

    "Each chapter contains a collection of worked examples, increasing the value of the book for teaching purposes. The coverage of topics within the book is adequate for undergraduate students, but the clarity of presentation of the theory is so well done that it may serve as a good basic reference for Ph.D. students and researchers."
    Oscar Castro-Orgaz, Ph.D., Instituto de Agricultura Sostenible, Consejo Superior de Investigaciones Científicas, Córdoba, Spain. In: Journal of Hydraulic Engineering, April 2013, p. 460

    "This book merits being read and even studied by a very large spectrum of people who should be able to find it on the shelves of the professional and university libraries that respect themselves." - Jean A. Cunge, Hon. M. IAHR, Société Hydrotechnique de France, Grenoble, France. In: Journal of Hydraulic Research Vol. 51, No. 1 (2013), pp. 109–110

    "[T]he combination of theoretical aspects, perfectly developed, with an applied point of view directly related to engineering and research, is an additional asset which is not found in other books covering the same field."

    "[T]his book should interest all the students, engineers (beginner or not), researchers and teachers in fluid mechanics whatever their field of predilection. To be strongly recommended."Dr Frederic Murzyn, ESTACA (France) 

    "This handbook is of excellent quality and is a great addition to the literature on fluid mechanics."

    "The author made a strong pedagogical effort in writing this book. Without any doubt, it will become a standard work in Fluid Dynamics." – Pierre LUBIN, Assistant Professor, Université de Bordeaux

    "This should be recommended reading for anyone contemplating numerical calculations or detailed measurements on real engineering geometries, since this training teaches one what to expect."

    "[T]his text has a wonderful personal touch, including many illustrations and appendices that spring from the author's love of flows in rivers and seas, of the design of ships and aeroplanes, and of history."Richard Manasseh, Fluid Dynamics Group

    "The book contains some historical remarks and a lot of application and exercises. It handles some aspects in more detail than other books of hydrodynamics and is, thereby, a good completion of the flow mechanics literature." – Prof. B. PLATZER in: Z. Angew Math. Mech., 2011, Vol. 91, No. 5, p. 399.

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