Turbulence: An Introduction for Scientists and Engineers

Frontcover
Oxford University Press, 13.05.2004 - 688 Seiten
2 Rezensionen
Based on a taught by the author at the University of Cambridge, this comprehensive text on turbulence and fluid dynamics is aimed at year 4 undergraduates and graduates in applied mathematics, physics, and engineering, and provides an ideal reference for industry professionals and researchers. It bridges the gap between elementary accounts of turbulence found in undergraduate texts and more rigorous accounts given in monographs on the subject. Containing many examples, the author combines the maximum of physical insight with the minimum of mathematical detail where possible. The text is highly illustrated throughout, and includes colour plates; required mathematical techniques are covered in extensive appendices. The text is divided into three parts: Part I consists of a traditional introduction to the classical aspects of turbulence, the nature of turbulence, and the equations of fluid mechanics. Mathematics is kept to a minimum, presupposing only an elementary knowledge of fluid mechanics and statistics. Part II tackles the problem of homogeneous turbulence with a focus on describing the phenomena in real space. Part III covers certain special topics rarely discussed in introductory texts. Many geophysical and astrophysical flows are dominated by the effects of body forces, such as buoyancy, Coriolis and Lorentz forces. Moreover, certain large-scale flows are approximately two-dimensional and this has led to a concerted investigation of two-dimensional turbulence over the last few years. Both the influence of body forces and two-dimensional turbulence are discussed.
  

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Inhalt

The ubiquitous nature of turbulence
3
The equations of fluid mechanics
29
The origins and nature of turbulence
57
Turbulent shear flows and simple closure models
107
The phenomenology of Taylor Richardson
199
tubes
248
fields
260
The statistical equations for a passive scalar
291
The role of numerical simulations
423
Isotropic turbulence in spectral space
449
The influence of rotation stratification and magnetic
497
Twodimensional turbulence
569
turbulence
581
Epilogue
619
Longrange pressure forces in isotropic
641
Hankel transforms and hypergeometric
646

Freely decaying homogeneous turbulence
297
approximately the distribution
410
Turbulence composed of Townsends model
417

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Über den Autor (2004)

P. A. Davidson is a Reader in Fluid Mechanics at the University of Cambridge. He is an associate editor of the Journal of Fluid Mechanics and was awarded the Institute of Materials prize in 1996.

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