Computational Fluid Dynamics
Applications in Environmental Hydraulics
Will be published approx. on 22. April 2005
Book
Hardback
540 pages
978-0-470-84359-8 (ISBN)
Description
Uniquely outlines CFD theory in a manner relevant to environmental applications. This book addresses the basic topics in CFD modelling in a thematic manner to provided the necessary theoretical background, as well as providing global cases studies showing how CFD models can be used in practice demonstrating how good practice can be achieved , with reference to both established and new applications.
* First book to apply CFD to the environmental sciences
* Written at a level suitable for non-mathematicians
More details
Edition
1. Auflage
Language
English
Place of publication
New York
United States
Target group
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 251 mm
Width: 173 mm
Thickness: 36 mm
Weight
1175 gr
ISBN-13
978-0-470-84359-8 (9780470843598)
Schweitzer Classification
Other editions
Additional editions
Paul D. Bates | Stuart N. Lane | R. Ferguson
Computational Fluid Dynamics
Applications in Environmental Hydraulics
E-Book
08/2005
Wiley
€215.99
Available for download
Persons
Paul D. Bates is a Professor of Hydrology at the University of Bristol, UK. He is a Fellow of the American Geophysical Union and a Royal Society Wolfson Research Merit Award holder.
Stuart N. Lane is the editor of Computational Fluid Dynamics: Applications in Environmental Hydraulics, published by Wiley.
Robert I. Ferguson is the editor of Computational Fluid Dynamics: Applications in Environmental Hydraulics, published by Wiley.
Stuart N. Lane is the editor of Computational Fluid Dynamics: Applications in Environmental Hydraulics, published by Wiley.
Robert I. Ferguson is the editor of Computational Fluid Dynamics: Applications in Environmental Hydraulics, published by Wiley.
Content
1 Introduction to CFD (Bates (Bristol, UK), Lane (Leeds, UK) and Ferguson (Sheffield, UK)).
2 Fundamental equations for CFD in river flow simulations (D.B. Ingham and L. Ma).
3 Modelling Solute Transport Processes in Free Surface Flow CFD Schemes (I. Guymer, C. Wilson and J. Boxall).
4 Basic equations for sediment transport in CFD for fluvial morphodynamics (E. Mosselman).
5 Introduction to Statistical Turbulence Modeling for Hydraulic Engineering Flows (F. Sotiropoulos).
6 Modelling wetting and drying processes in hydraulic models (P. D. Bates and M. S. Horritt).
7 Introduction to Numerical Methods for Fluid Flow (N. G. Wright).
8 A framework for model verification and validation of CFD schemes in natural open channel flows (S. N. Lane, R. J. Hardy, R. I. Ferguson and D. R. Parsons).
9 Parameterisation, validation and uncertainty analysis of CFD models of fluvial and flood hydraulics in the natural environment (M. S. Horritt).
10 Modelling reach-scale fluvial flows (S. N. Lane and R. I. Ferguson).
11 Numerical modeling of floodplain flow (P. D. Bates, M. S. Horritt, N. M. Hunter, D. Mason and D. Cobby).
12 Modelling water quality processes in estuaries (R. A. Falconer, B. Lin and S. M. Kashefipour).
13 Roughness parameterization in CFD modeling of gravel-bed rivers (A. P. Nicholas).
14 Modelling of sand deposition in archaeologically significant reaches of the Colorado River in Grand Canyon, USA (S. Wiele and M. Torizzo).
15 Modelling of open channel flow through vegetation (C. A. M. E. Wilson, T. Stoesser and P. D. Bates).
16 Ecohydraulics: a new interdisciplinary frontier for CFD (M. Leclerc).
17 Towards risk based prediction in real world applications of complex hydraulic models (B. G. Hankin and K. J. Beven).
18 CFD for environmental design and management (G. Pender, H. P. Morvan, N. G. Wright and D. A. Ervine).