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Numerical Methods in Fluid Mechanics
 
Edited by: Alain Vincent Université de Montréal, Montréal, QC, Canada
A co-publication of the AMS and Centre de Recherches Mathématiques
Front Cover for Numerical Methods in Fluid Mechanics
Available Formats:
Softcover ISBN: 978-0-8218-0813-9
Product Code: CRMP/16
List Price: $80.00
MAA Member Price: $72.00
AMS Member Price: $64.00
Electronic ISBN: 978-1-4704-3930-9
Product Code: CRMP/16.E
List Price: $75.00
MAA Member Price: $67.50
AMS Member Price: $60.00
Bundle Print and Electronic Formats and Save!
This product is available for purchase as a bundle. Purchasing as a bundle enables you to save on the electronic version.
List Price: $120.00
MAA Member Price: $108.00
AMS Member Price: $96.00
Front Cover for Numerical Methods in Fluid Mechanics
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  • Front Cover for Numerical Methods in Fluid Mechanics
  • Back Cover for Numerical Methods in Fluid Mechanics
Numerical Methods in Fluid Mechanics
Edited by: Alain Vincent Université de Montréal, Montréal, QC, Canada
A co-publication of the AMS and Centre de Recherches Mathématiques
Available Formats:
Softcover ISBN:  978-0-8218-0813-9
Product Code:  CRMP/16
List Price: $80.00
MAA Member Price: $72.00
AMS Member Price: $64.00
Electronic ISBN:  978-1-4704-3930-9
Product Code:  CRMP/16.E
List Price: $75.00
MAA Member Price: $67.50
AMS Member Price: $60.00
Bundle Print and Electronic Formats and Save!
This product is available for purchase as a bundle. Purchasing as a bundle enables you to save on the electronic version.
List Price: $120.00
MAA Member Price: $108.00
AMS Member Price: $96.00
  • Book Details
     
     
    CRM Proceedings & Lecture Notes
    Volume: 161998; 199 pp
    MSC: Primary 76;

    After centuries of research, turbulence in fluids is still an unsolved problem. The graduate-level lectures in this volume cover the state of the art of numerical methods for fluid mechanics.

    The research in this collection covers wavelet-based methods, the semi-Lagrangian method, the Lagrangian multi-pole method, continuous adaptation of curvilinear grids, finite volume methods, shock-capturing methods, and ENO schemes. The most recent research on large eddy simulations and Reynolds stress modeling is presented in a way that is accessible to engineers, postdoctoral researchers, and graduate students. Applications cover industrial flows, aerodynamics, two-phase flows, astrophysical flows, and meteorology. This volume would be suitable as a textbook for graduate students with a background in fluid mechanics.

    Readership

    Graduate students, engineers, physicists.

  • Table of Contents
     
     
    • Chapters
    • Wavelet based methods for PDEs
    • Forecasting with a variable-resolution global model
    • The simulation and analysis of vortex dynamics in nearly-inviscid 2D and layerwise-2D flows
    • Direct and large eddy simulation of turbulence
    • Continuous adaptation of a curvilinear grid
    • The semi-Lagrangian method
    • An introduction to single-point closure methodology
    • Numerical simulation of two-phase flows
    • A high-resolution adaptive moving mesh hydrodynamic algorithm
  • Request Review Copy
Volume: 161998; 199 pp
MSC: Primary 76;

After centuries of research, turbulence in fluids is still an unsolved problem. The graduate-level lectures in this volume cover the state of the art of numerical methods for fluid mechanics.

The research in this collection covers wavelet-based methods, the semi-Lagrangian method, the Lagrangian multi-pole method, continuous adaptation of curvilinear grids, finite volume methods, shock-capturing methods, and ENO schemes. The most recent research on large eddy simulations and Reynolds stress modeling is presented in a way that is accessible to engineers, postdoctoral researchers, and graduate students. Applications cover industrial flows, aerodynamics, two-phase flows, astrophysical flows, and meteorology. This volume would be suitable as a textbook for graduate students with a background in fluid mechanics.

Readership

Graduate students, engineers, physicists.

  • Chapters
  • Wavelet based methods for PDEs
  • Forecasting with a variable-resolution global model
  • The simulation and analysis of vortex dynamics in nearly-inviscid 2D and layerwise-2D flows
  • Direct and large eddy simulation of turbulence
  • Continuous adaptation of a curvilinear grid
  • The semi-Lagrangian method
  • An introduction to single-point closure methodology
  • Numerical simulation of two-phase flows
  • A high-resolution adaptive moving mesh hydrodynamic algorithm
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