Handbook of Hydraulic Geometry - Vijay P. Singh

Handbook of Hydraulic Geometry

Theories and Advances

(Autor)

Buch | Hardcover
550 Seiten
2022
Cambridge University Press (Verlag)
978-1-009-22217-4 (ISBN)
74,80 inkl. MwSt
An introduction to hydraulic geometry, discussion of different related theories, and their application in river engineering. Handbook of Hydraulic Geometry provides an excellent summary for hydraulic engineers, as well as graduate students and researchers in fluvial geomorphology and environmental engineering.
Hydraulic geometry describes the relations between stable channel characteristics and discharge and adjustments made by a stream in response to changes in river discharge and sediment load. This book introduces hydraulic geometry and discusses different theories and their applications in river engineering, thus providing a comprehensive summary for hydraulic engineers, as well as graduate students and researchers in fluvial geomorphology and hydraulic and environmental engineering. Topics covered include the basis of power form of hydraulic geometry relations, validity and stability of power relations, state and assumption of equilibrium, variability of exponents, variation of channel width and velocity, and the effect of stream size and river channel patterns.

Vijay Singh is a University Distinguished Professor, a Regents Professor, and Caroline and William N. Lehrer Distinguished Chair in Water Engineering at Texas A&M University. He has 47 years of experience in research and teaching in hydrology, groundwater, hydraulics, and water resources. He is a Distinguished member of ASCE, an Honorary member of IWRA, a Distinguished Fellow of AGGS, and an Honorary Member of AWRA. He has received more than 100 national and international awards, including three honorary doctorates.

1. Introduction; 2. Governing Equations; 3. Regime Theory; 4. Leopold and Maddock (LM) Theory; 5. Theory of Minimum Variance; 6. Dimensional Principles; 7. Hydrodynamic Theory; 8. Scaling Theory; 9. Tractive Force Theory; 10. Thermodynamic Theory; 11. Similarity Principle; 12. Channel Mobility Theory; 13. Maximum Discharge and Froude Number Hypothesis; 14. Principle of Minimum Froude Number; 15. Hypothesis of Maximum Friction Factor; 16. Maximum Flow Efficiency Hypothesis; 17. Principle of Least Action; 18. Theory of Minimum Energy Dissipation Rate; 19. Entropy Theory; 20. Minimum Energy Dissipation and Maximum Entropy Theory; 21. Stream Power; 22. Regional Hydraulic Geometry; References; Index.

Erscheinungsdatum
Zusatzinfo Worked examples or Exercises
Verlagsort Cambridge
Sprache englisch
Maße 174 x 250 mm
Gewicht 1170 g
Themenwelt Technik Bauwesen
ISBN-10 1-009-22217-1 / 1009222171
ISBN-13 978-1-009-22217-4 / 9781009222174
Zustand Neuware
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