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Home > Catalogue > Numerical Simulations in the Environmental and Earth Sciences
Numerical Simulations in the Environmental and Earth Sciences

Details

  • 121 b/w illus. 19 tables
  • Page extent: 300 pages
  • Size: 253 x 177 mm
  • Weight: 0.538 kg
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Paperback

 (ISBN-13: 9780521026048)

  • Also available in Hardback
  • Published January 2007

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US $43.99
Singapore price US $47.07 (inclusive of GST)

Increases in computer power and technology have rapidly advanced the applications of numerical modelling in environmental and earth sciences. The progress of numerical modelling in atmospheric, oceanic and geophysical sciences was the topic of an international conference held by the National Autonomous University of Mexico. The review articles and research papers in this volume constitute a wide-ranging account of modelling environmental and earth processes through a variety of numerical simulations. Sections are devoted to such topics as general circulation models and global change, methods of geophysical data assimilation, and mathematical and computational methods with geophysical applications. This book forms an excellent introduction and overview for graduate students as well as a critical update for researchers.

• Diverse and topical • Emphasis on developing countries, where environmental change may be severe • Both an excellent introduction and overview for graduate students, and a critical update for researchers

Contents

Participants; Scientific committee; Organizing committee; Preface; Part I. General Circulation Models and Global Change: 1. A general circulation model of the atmosphere-ocean system; 2. Coupled ocean-atmosphere modeling: computing and scientific aspects; 3. The OCCAM global ocean model; 4. Climatic asymmetries relative to the equator; 5. On the use of a general circulation model to study regional climate; 6. A numerical study of the circulation and sea surface temperature of the Gulf of Mexico; 7. Pacific region CO2 climate change in a global coupled climate model; 8. Prospects and problems in modeling the impacts of climate change in Latin America; 9. PIXSAT, a digital image processing system in a CRAY-UNIX environment; 10. Marine productivity seasonal forecast along the Ecuadorian coastal zone based on physical models of ENSO; 11. Land cover classification by means of satellite imagery and supercomputer resources; Part. II. Dispersion and Mesoscale Modeling: 12. Environmental applications of mesoscale atmospheric models; 13. An integrated air pollution modeling system: application to the Los Angeles Basin; 14. An h-adapting finite element model for atmospheric transport of pollutants; 15. The applicability of a mesoscale model in the Valley of Mexico during extreme air pollution episodes; 16. Mexico city air quality simulations under different fuel consumption scenarios; 17. Numerical modeling of pollutant particle diffusion in the atmospheric boundary layer; 18. Investigating the dispersion inside idealized urban street canyons using a k-epsilon turbulence model; 19. Coupling of an urban dispersion model and an energy-budget model; 20. A mesoscale meteorological model to predict windflow in the Valley of Mexico; 21. Some experiments with a three-dimensional semi-lagrangian and semiimplicit cloud model; 22. Large eddy modeling of stratocumulus clouds; Part III. Geophysical Data Assimilation: 23. Computational aspects of Kalman filtering and smoothing for atmospheric data assimilation; 24. Computational aspects of Goddard's physical-space statistical analysis system (PSAS); 25. A study on the influence of the Pacific and Atlantic SST on the northeast Brazil monthly precipitation using singular value decomposition; 26. Numerically efficient methods applicable to the eigenvalue problems arising in linear stability analysis; 27. Use of canonical correlation analysis to predict the spatial rainfall variability over northeast Brazil; 28. Identification of the ITCZ axis by computational techniques; 29. Variational assimilation of acoustic tomography data and point observations: some comparisons and suggestions to perform error analysis; Part IV. Methods and Applications in Geophysics: 30. Do man-made obstacles produce dynamical p-wave localization in Mexico City earthquakes?; 31. Domain decomposition methods for model parallelization; 32. Parallelization using th-collocation; 32. A method for simultaneous estimation of multiphase relative permeability and capillary pressure functions.

Review

'… there are numerous excellent articles and the book gives a reasonable introduction to those researchers and graduate students who have some knowledge to the topic.' D. B. Ingham, Contemporary Physics

Contributors

Carlos R. Mechoso, M. Pontaud, L. Terray, E. Guilyardi, E. Sevault, D. B. Stephenson, O. Thual, C. S. Gwilliam, A. C. Coward, B. A. de Cuevas, D. J. Webb, E. Rourke, S. R. Thompson, K. Döös, S. G. H. Philander, T. Li, G. Lambert, Víctor O. Magaña-Rueda, Arturo I. Quintanar, Jorge Zavala, A. Parés-Sierra, J. Ochoa, J. Sheinbaum, Gerald A. Meehl, Warren M. Washington, Diana M. Liverman, Alfredo Cortés, Román Álvarez, Miguel A. Castillo, Gustavo Silva-Guerrero, Roberto Bonifaz, Brian Davis, Thomas T. Warner, Rong Lu, Richard P. Turco, Darrell W. Pepper, David B. Carrington, Ismael Pérez-García, Everett C. Nickerson, Elba Oritz, Jorge Gasca, Gustavo Sosa, Ma. Esther Ruiz, Luis Díaz, Gueorgui V. Mostovoi, YanChing Q. Zhang, Glenn T. Johnson, A. John Arnfield, Jan M. Herbert, M. D. Williams, G. Sosa, V. Mora, José A. Vergara, G. B. Raga, Ricardo Todling, Jing Guo, Arlindo da Silva, Cíntia Bertacchi Uvo, Carlos Alberto Repelli, Stephen Zebiak, Yohanan Kushnir, Marco De la Cruz-Heredia, G. W. Kent Moore, Carlos Alberto Repelli, José Maria Brabo Alves, Celeste C. Ferreira, Fernando A. A. Pimentel, Julio Sheinbaum, G. Báez, J. Flores, T. H. Seligman, Ismael Herrera, Abel Camacho, Joaquín Hernández, Jaime Garfias, G. Mejía, A. Watson, K. Mohanty, J. Nordtvedt

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