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Tropical Cyclones. Observations and Basic Processes. Developments in Weather and Climate Science Volume 4

  • Book

  • September 2023
  • Elsevier Science and Technology
  • ID: 5694185

Tropical cyclones are a major threat to life and property, even in the formative stages of their development. They include a number of different hazards that individually can cause significant impacts, such as extreme winds, storm surge, flooding, tornadoes, and lightning. Tropical Cyclones: Observations and Basic Processes provides a modern overview of the theory and observations of tropical cyclone structure and behavior. The book begins by summarizing key observations of the structure, evolution, and formation of tropical cyclones. It goes on to develop a theoretical foundation for a basic understanding of tropical cyclone behavior during the storm's life cycle. Horizontally two-dimensional dynamics of vortex motion and other non-axisymmetric features are considered first before tackling the axisymmetric balance dynamics involving the overturning circulation. Following a review of moist convective processes, later chapters focus mainly on a range of three-dimensional aspects of the tropical cyclone life cycle. Building from first principles, the book provides a state-of-the-art summary of the fundamentals of tropical cyclones aimed at advanced undergraduates, graduate students, tropical meteorologists, and researchers. Members of the Royal Meteorological Society are eligible for a 35% discount on all Developments in Weather and Climate Science series titles. See the RMetS member dashboard for the discount code.

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Table of Contents

1. Observations of tropical cyclones
2. Fluid dynamics and moist thermodynamics
3. Tropical cyclone motion
4. Vortex axisymmetrization, waves and wave-vortex interaction
5. Axisymmetric Vortex Theory Fundamentals
6. Frictional effects
7. Estimating boundary layer parameters
8. A prognostic balance theory for vortex evolution
9. Moist convection
10. Tropical cyclone formation and intensification
11. The rotating-convection paradigm
12. Emanuel's intensification theories
13. Emanuel's maximum intensity theory
14. Global budgets and steady state considerations
15. Tropical cyclone life cycle
16. Applications of the rotating-convection paradigm
17. Epilogue

Authors

Roger K. Smith Ludwig-Maximilians University of Munich, Germany. Roger K. Smith, Emeritus Professor, 1988-2009 Professor of Meteorology, Ludwig-Maximilians University of Munich, Germany; 1973-1988 Senior Lecturer/Reader in Mathematics, Monash University, Australia; 1971-1972 Lecturer in Mathematics, University of Edinburgh, Scotland; 1968-1971 Lecturer in Mathematics, Monash University, Australia; 1966-1968 Assistant Lecturer in Mathematics, University of Manchester, England. 1968 Ph. D. in Applied Mathematics, University of Manchester Michael T. Montgomery U.S. Naval Post Graduate School, Monterey, CA, USA. Michael T. Montgomery, 2012-2022, Distinguished Professor, Department of Meteorology, U.S. Naval Postgraduate School (NPS), Monterey, CA; 2006-2012, Professor, Department of Meteorology, NPS; 2002-2006, Professor, Department of Atmospheric Science, Colorado State University (CSU), Fort Collins, CO, USA; 1997-2002, Associate Professor, Department of Atmospheric Science, CSU; 1992-1997, Assistant Professor, CSU; 1991-1992, U.S. Department of Energy Global Change Post-doctoral Fellow, Hurricane Research Division/NOAA, Miami, Florida; 1990-1991, Postdoctoral Researcher, Department of Earth and Planetary Sciences, Harvard University, Cambridge, MA, 02138, USA; 1990 Ph.D. in Applied Mathematics/Dynamic Meteorology, Harvard University.