Computational Fluid Dynamics in Practice
Norman Rhodes
€ 170.01
FREE Delivery in Ireland
Description for Computational Fluid Dynamics in Practice
Hardcover. This text explores the current and future developments in CFD, with the authors detailing advanced applications and case studies to demonstrate successes, illustrate the limitations and identify methods of good practice. Editor(s): Rhodes, Norman. Num Pages: 200 pages, illustrations. BIC Classification: TGMF3. Category: (P) Professional & Vocational; (UP) Postgraduate, Research & Scholarly; (XV) Technical / Manuals. Dimension: 241 x 166 x 19. Weight in Grams: 590.
Computational Fluid Dynamics in Practice explores the current and future developments in CFD, with the authors detailing advanced applications and case studies to demonstrate successes, illustrate the limitations, and identify methods for good practice. Designers, engineers, and researchers working in this field of fluid mechanics will find this book essential reading both for new ideas and applications, as well as a valuable source of reference.
CONTENTS INCLUDE:
- The issue of numerical accuracy in computational fluid dynamics
- Detection of multiple solutions using a mid-cell
back substitution technique applied to computational fluid dynamics - A comparison of a conventional RANS and a lattice gas dynamics ... Read more
- Mesh generation – The Ricardo Philosophy
- The validation of rapid CFD modelling for turbomachinery
- Built environment simulations using CFD
- Using CFD in the design of electric motors and generators
- CFD computation of air-oil separation in an engine breather
- Cavitation in a pressure-activated ball valve.
Product Details
Format
Hardback
Publication date
2001
Publisher
Wiley
Condition
New
Number of Pages
208
Place of Publication
New York, United States
ISBN
9781860583520
SKU
V9781860583520
Shipping Time
Usually ships in 7 to 11 working days
Ref
99-50
About Norman Rhodes
Norman Rhodes is the author of Computational Fluid Dynamics in Practice, published by Wiley.
Reviews for Computational Fluid Dynamics in Practice