Ideal and Real Atmospheric Boundary Layers - Rotach, Mathias W; Holtslag, Albert A M
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Ideal and Real Atmospheric Boundary Layers is based on the notion that classical books of Boundary Layer Meteorology largely focus on ideal surface conditions, while the actual real circumstances often address situations that are more complex, like over heterogeneous land and in urban and mountain areas. Ideal and Real Atmospheric Boundary Layers starts by covering the basic physical principles used in atmospheric boundary layer meteorology, including atmospheric turbulence, observing and modeling atmospheric boundary layers, and neutral, convective, and stable boundary layers over different…mehr

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Produktbeschreibung
Ideal and Real Atmospheric Boundary Layers is based on the notion that classical books of Boundary Layer Meteorology largely focus on ideal surface conditions, while the actual real circumstances often address situations that are more complex, like over heterogeneous land and in urban and mountain areas. Ideal and Real Atmospheric Boundary Layers starts by covering the basic physical principles used in atmospheric boundary layer meteorology, including atmospheric turbulence, observing and modeling atmospheric boundary layers, and neutral, convective, and stable boundary layers over different types of land surfaces. The second part of the book describes the applications and extension of these principles for real-world circumstances. The book will be of interest to researchers and students in atmospheric science, climate science, and meteorology.
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Autorenporträt
Prof. Mathias W. Rotach holds a PhD in Environmental Physics from The Swiss Federal Institute of Technology (ETHZ) with a specialization in Atmospheric Physics. He is a full Professor in Dynamic Meteorology at the University of Innsbruck, Austria. His research group in Innsbruck is specialized in boundary layer dynamics and exchange processes over complex terrain, such as mountainous and urban surfaces. He has (co-)authored around 130 peer-reviewed papers on various aspects in boundary layer meteorology.