Rainfall - Runoff Modelling
The Primer
Published on 27. June 2003
Book
Paperback/Softback
372 pages
978-0-470-86671-9 (ISBN)
Description
Amid climatic changes linked to global warming, on--going changes in land--use patterns, and growing concern with hydrology as an international issue, it is increasingly important to understand the potential impact of these changes on the water environment. Rainfall--runoff modeling is an important predictor of that impact. This book provides a summary of the development of rainfall--runoff models, giving examples of their practical applications. It introduces the different techniques for rainfall--runoff modeling, based upon the most recent research, but in a way that serves as a primer for the subject.* Provides an overview of how catchment rainfall--runoff systems work* A history of rainfall--runoff models* Examples of models which can be downloaded over the Internet* Looks at uncertainty in model prediction
Reviews / Votes
"...very stimulating...readable for the non--modellerand has an effective pedagogic style...an excellent contribution..." (Land Degradation & Development, Vol 14 (1--2), 2004) "This very stimulating volume sets out the, often complex, issues very clearly!" (Land Degradation and Development, Vol 15 No.4 July/ Aug 2004)More details
Language
English
Place of publication
Chichester
United Kingdom
Publishing group
John Wiley and Sons Ltd
Target group
Professional and scholarly
Dimensions
Height: 244 mm
Width: 171 mm
Thickness: 20 mm
Weight
616 gr
ISBN-13
978-0-470-86671-9 (9780470866719)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Book
02/2012
2nd Edition
Wiley
€98.50
Shipment within 10-20 days
Person
Keith Beven wrote his first hydrological model as an undergraduate in 1970, trying to predict the runoff generation on Exmoor during the Lynmouth flood. Since then, he has been involved with many of the major rainfall--runoff modelling innovations, including TOPMODEL, the Systeme Hydrologique Europeen (SHE) model, the Institute of Hydrology Distributed Model (IHDM), and Data--based mechanistic modelling (DBM). In 1991 he was awarded the American Geophysical Union Horton Award for fundamental contributions to the understanding and prediction of runoff production, particularly the role of topography and soil structure, in natural catchments. He has been Professor of Hydrology and Fluid Dynamics at Lancaster University since 1992.
Content
Preface. 1. Down to Basics: Runoff Processes and the Modelling Process. 2. Evolution of Rainfall--Runoff Models: Survival of the Fittest? 3. Data for Rainfall--Runoff Modelling. 4. Predicting Hydrographs Using Models Based on Data. 5. Predicting Hydrographs Using Distributed Models Based on Process Descriptions. 6. Hydrological Similarity and Distribution Function Rainfall--Runoff Models. 7. Parameter Estimation and Predictive Uncertainty. 8. Predicting Floods. 9. Predicting the Effects of Change. 10. Revisiting the Problem of Model Choice. Appendix A: Demonstration Software. Appendix B: Glossary of Terms. References. Index.