| Deterministic Methods in Systems Hydrology: Ihe Delft Lecture Note Series Contributor(s): Dooge, James C. I. (Author), O'Kane, Philip (Author) |
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ISBN: 9058093921 ISBN-13: 9789058093929 Publisher: CRC Press OUR PRICE: $60.29 Product Type: Paperback - Other Formats Published: January 2003 Annotation: The material in this book was originally written and subsequently revised for students of hydrology from many countries throughout the world attending post-graduate courses at IHE Delft. The objective of the text was two fold - to present the theoretical foundation of the deterministic analysis of hydrological processes at a catchment scale and to compare results obtained when the methods are applied to some data sets appearing in the classical literature of hydrology. The aim of this book is to present a solid foundation of knowledge to promote understanding and to assist the professional hydrologist to make reliable judgements in choosing the approach to complex hydrological problems. |
| Additional Information |
| BISAC Categories: - Science | Environmental Science (see Also Chemistry - Environmental) - Science | Earth Sciences - Hydrology - Technology & Engineering | Civil - General |
| Dewey: 551.48 |
| Series: Ihe Delft Lecture Note |
| Physical Information: (0.02 lbs) 326 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Deterministic Methods in Systems Hydrology presents the basic theory underlying the multitude of parameter-rich models which dominate the hydrological literature. Its objectives are to introduce the elements of systems science as applied to hydrological problems; to present flood prediction and flood routing as problems in linear systems theory, clarifying the basic assumptions and evaluating their accuracy; and to review and to evaluate some deterministic models of components of the hydrological cycle, with a view to assembling the most appropriate model of catchment response, for a particular problem in applied hydrology. The material is developed in two parts: the first four chapters present the systems viewpoint, the nature of hydrological systems, some systems mathematics and their application to direct storm runoff. The final four chapters cover linear conceptual models of direct runoff, the fitting of conceptual models to data, simple models of subsurface flow and non-linear deterministic models. |
