240 pages, 13 colour plates, 191 illustrations, 7 tables
Bringing together leading researchers, this 2004 volume surveys numerous developments in the fields of atmospheric turbulence and mesoscale meteorology, with particular emphasis on the areas pioneered by Douglas K. Lilly. Numerical simulation is an increasingly important tool for improving our understanding of a wide range of atmospheric phenomena. The first part of Atmospheric Turbulence and Mesoscale Meteorology looks at the development of theoretical and computational analyses of atmospheric turbulent flows, and reviews research advances in this area. Chapters in the second part look at various aspects of mesoscale weather phenomena: from the numerical forecasting of individual thunderstorms to understanding how mountains affect local weather and climate.
First published in 2004.
"The volume as a whole seems lovingly assembled, with careful content and consistently high-quality technical editing and printing [...] Doug Lilly seems to have integrated all these phenomena, processes, issues, and approaches into a uniquely broad and deep scientific outlook [...] the glowing tributes in this book indicate that he has also been a masterful teacher, a revered mentor, and a treasured colleague to many current leading lights on the field of meteorology. This book, a sampler of new and vital science material, rich with glimpses of the human and historical side of the field, seems a fitting tribute."
- Bulletin of the American Meteorological Society
"In the vast body of literature on special subjects in meteorology this book serves as something like a lighthouse. [...] not only a valuable contribution to computational fluid dynamics and mesoscale meteorology but also to the recent history of natural sciences. The reviewer can easily agree [...] that researchers and graduate students will find this book to be an excellent resource summarizing the development of techniques as well as current and future work in the fields of atmospheric turbulence and mesoscale meteorology."
- Meteorologische Zeitschrift
Introduction Evgeni Fedorovich, Richard Rotunno and Bjorn Stevens
Douglas Lilly: A biography Katharine Kanak, K. Bryan, J. Deardorff, K. Droegemeier, J. Kimpel, P. Lamb, D. Lenschow and J. Smagorinsky
Part I. Atmospheric Turbulence
1. Changing the face of small-scale meteorology John C. Wyngaard
2. Phenomenological hunts in two-dimensional and stratified turbulence James C. McWilliams
3. Energy dissipation in large eddy simulations: dependence on flow structure and effects of eigenvector alignments Chad Higgins, Charles Meneveau and Marc Parlange
4. Dreams of a stratocumulus sleeper David A. Randall and Wayne H. Schubert
5. Large eddy simulations of cloud-topped mixed layers Chin-Hoh Moeng, Bjorn Stevens and Peter P. Sullivan
Part II. Mesoscale Meteorology
6. Model numerics for convective storm simulation Joseph B. Klemp and William C. Skamarock
7. Numerical prediction of thunderstorms Juanzhen Sun
8. Tropical cyclone energetics and structure Kerry Emanuel
9. Mountain meteorology and regional climates Ronald B. Smith
10. Dynamical processes contributing to the mesoscale spectrum of atmospheric motions Kenneth S. Gage
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