Turbulence in the Atmosphere
Turbulence in the Atmosphere
Based on his over forty years of research and teaching, John C. Wyngaard's textbook is an excellent up-to-date introduction to turbulence in the atmosphere and in engineering flows for advanced students, and a reference work for researchers in the atmospheric sciences. Part I introduces the concepts and equations of turbulence. It includes a rigorous introduction to the principal types of numerical modeling of turbulent flows. Part II describes turbulence in the atmospheric boundary layer. Part III covers the foundations of the statistical representation of turbulence and includes illustrative examples of stochastic problems that can be solved analytically. The book treats atmospheric and engineering turbulence in a unified way, gives clear explanation of the fundamental concepts of modeling turbulence, and has an up-to-date treatment of turbulence in the atmospheric boundary layer. Student exercises are included at the ends of chapters, and worked solutions are available online for use by course instructors.
- Treats atmospheric and engineering turbulence in a unified way, presenting a complete picture of turbulence
- Covers the fundamental concepts of the two main types of numerical modeling of turbulent flows, enhancing understanding of primary tools in turbulence field theory
- Provides an up-to-date treatment of turbulence in the atmospheric boundary layer, central to key application areas used in atmospheric science today
- Includes student exercises for each chapter, and worked solutions online for instructors
Reviews & endorsements
'This textbook is well-structured, coherently explained and it is ideally priced for advanced students and researchers in the fields of aeronautical, mechanical and environmental engineering as well as oceanography, applied mathematics and physics.' International Journal of Metrology
'The many quotations from researchers working in the field provide an interesting historical perspective. Such personal touches are welcome in a turbulence text. The book would probably be most accessible to students of atmospheric science who are familiar with concepts such as static stability and geostrophic balance. Nevertheless, Turbulence in the Atmosphere is admirable in its exposition and its breadth. It will still serve well as a graduate textbook and certainly conveys the author's affection for the subject.' Joseph H. LaCasce, Universitetet i Oslo
'… provides a modern introduction to turbulence in the atmosphere and in engineering flows, written by a specialist in the field. … an excellent textbook on atmospheric turbulence with a fully developed mathematical presentation for advanced students and researchers in the atmospheric sciences, meteorology, aeronautical, mechanical and environmental engineering, and oceanography. … written in an agreeable and clear way … should be included in the library of every researcher in the field.' Contemporary Physics
'… useful as a reference and as a resource for course instructors since each section is clearly demarcated and the terse style allows specific points to be located quickly … The range and quality of questions on key concepts and problems … at the end of each chapter, will definitely prove useful for others.' Meteorologische Zeitschrift
Product details
January 2010Hardback
9780521887694
406 pages
255 × 181 × 23 mm
0.95kg
Available
Table of Contents
- Preface
- Part I. A Grammar of Turbulence:
- 1. Introduction
- 2. Getting to know turbulence
- 3. Equations for averaged variables
- 4. Turbulent fluxes
- 5. Conservation equations for covariances
- 6. Large-eddy dynamics, the energy cascade, and large-eddy simulation
- 7. Kolmogrov scaling, its extensions, and two-dimensional turbulence
- Part II. Turbulence in the Atmospheric Boundary Layer:
- 8. The equations of atmospheric turbulence
- 9. The atmospheric boundary layer
- 10. The atmospheric surface layer
- 11. The convective boundary layer
- 12. The stable boundary layer
- Part III. Statistical Representation of Turbulence:
- 13. Probability densities and distributions
- 14. Isotropic tensors
- 15. Covariances, autocorrelations, and spectra
- 16. Statistics in turbulence analysis
- Index.
