Description

Book Synopsis
The gas dynamics of explosions is a subject that continues to interest researchers from many fields of physics and engineering. Lee's book describes the various analytical methods developed to determine non-steady shock propagation associated with explosions in a style accessible to graduate students and researchers in the subject.

Trade Review
The Gas Dynamics of Explosions is a unique and valuable collation and presentation of the analytical methods that have been used to calculate the physical properties of blast waves. This has been done with mathematical clarity, which in most cases is superior to that of the original publications. These analytical methods often provide an insight into the physical processes within a blast wave that is not provided by numerical simulation techniques that are nowadays most commonly used to study these processes. The text provides an excellent reference source for researchers studying blast waves and an excellent primer to those who are new to the field. It is a natural sequel to Professor Lee's earlier work, The Detonation Phenomenon (Cambridge, 2013)' J. M. Dewey, Shock Waves
'The book itself is relatively short, 194 pages, and can be read through in a couple of hours. The text is clear, the meanings precise and the pace is relatively fast. … If, however, we look with greater attention, the text covers the fundamental gas dynamics in depth and gives fairly complete derivations of equations: this is not a book where space and effort is saved by the familiar phrase 'it can be easily shown that'. Many of the derivations are given for 0D to 3D forms. This allows comparison between the complexity of derivation and the inclusion of many graphs allows easy comparison of the results of the added complexity. This is a key strength of this text. Overall, I would recommend this book to those who want to have a strong, mathematically analytical basis of this field.' W. G. Proud, The Aeronautical Journal

Table of Contents
Preface; 1. Basic equations; 2. Weak shock theory; 3. Shock propagation in a non-uniform cross sectional area tube; 4. Blast wave theory; 5. Homentropic explosions; 6. Snow-plow approximation; 7. The Brinkley–Kirkwood theory; 8. Non-similar solutions for finite strength blast waves; 9. Implosions; Index.

The Gas Dynamics of Explosions

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A Hardback by John H. S. Lee

15 in stock


    View other formats and editions of The Gas Dynamics of Explosions by John H. S. Lee

    Publisher: Cambridge University Press
    Publication Date: 7/21/2016 12:00:00 AM
    ISBN13: 9781107106307, 978-1107106307
    ISBN10: 1107106303
    Also in:
    Aerodynamics Engineering: Mechanics of fluids

    Description

    Book Synopsis
    The gas dynamics of explosions is a subject that continues to interest researchers from many fields of physics and engineering. Lee's book describes the various analytical methods developed to determine non-steady shock propagation associated with explosions in a style accessible to graduate students and researchers in the subject.

    Trade Review
    The Gas Dynamics of Explosions is a unique and valuable collation and presentation of the analytical methods that have been used to calculate the physical properties of blast waves. This has been done with mathematical clarity, which in most cases is superior to that of the original publications. These analytical methods often provide an insight into the physical processes within a blast wave that is not provided by numerical simulation techniques that are nowadays most commonly used to study these processes. The text provides an excellent reference source for researchers studying blast waves and an excellent primer to those who are new to the field. It is a natural sequel to Professor Lee's earlier work, The Detonation Phenomenon (Cambridge, 2013)' J. M. Dewey, Shock Waves
    'The book itself is relatively short, 194 pages, and can be read through in a couple of hours. The text is clear, the meanings precise and the pace is relatively fast. … If, however, we look with greater attention, the text covers the fundamental gas dynamics in depth and gives fairly complete derivations of equations: this is not a book where space and effort is saved by the familiar phrase 'it can be easily shown that'. Many of the derivations are given for 0D to 3D forms. This allows comparison between the complexity of derivation and the inclusion of many graphs allows easy comparison of the results of the added complexity. This is a key strength of this text. Overall, I would recommend this book to those who want to have a strong, mathematically analytical basis of this field.' W. G. Proud, The Aeronautical Journal

    Table of Contents
    Preface; 1. Basic equations; 2. Weak shock theory; 3. Shock propagation in a non-uniform cross sectional area tube; 4. Blast wave theory; 5. Homentropic explosions; 6. Snow-plow approximation; 7. The Brinkley–Kirkwood theory; 8. Non-similar solutions for finite strength blast waves; 9. Implosions; Index.

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