Non-Hydrostatic Free Surface Flows
Published on 4. April 2017
Book
Hardback
XVI, 696 pages
978-3-319-47969-9 (ISBN)
Description
This book provides essential information on the higher mathematical level of approximation over the gradually varied flow theory, also referred to as the Boussinesq-type theory. In this context, it presents higher order flow equations, together with their applications in a broad range of pertinent engineering and environmental problems, including open channel, groundwater, and granular material flows.
Reviews / Votes
"Non-Hydrostatic Free Surface Flows . is an exceptional book that masterfully takes the reader on a brave voyage into a universe of Free-Surface Flows that do not presume a hydrostatic pressure distribution in the vertical direction. . The wealth of information amassed in this text is extraordinary. Both students and researchers will find that the quality of the presentation is outstanding, and the didactic value of the text is unparalleled." (Nikolaos D. Katopodes, Journal of Hydraulic Engineering, Vol. 147 (10), 2021)"'Nonhydrostatic free surface flows' is an excellent book that merits having a place on the shelves of any person dedicated to any discipline in which the flow of water might be fundamental, from ecology to civil engineering." (Juan V. Giraldez, Environmental Fluid Mechanics, Vol. 19, 2019)
"This is the first free surface hydraulics book dedicated to Boussinesq's theory since Boussinesq's 1877 book. The book contains a clear presentation of basic theoretical aspects. It is carefully illustrated and edited. . Non-hydrostatic free surface flows is a valuable addition to the literature, containing information that will be of great interest for students, researchers and professors working in open channel hydraulics." (Takashi Hosoda, Journal of Hydraulic Research, April, 2018)
More details
Series
Edition
1st ed. 2017
Language
English
Place of publication
Cham
Switzerland
Publishing group
Springer International Publishing
Target group
Professional and scholarly
Illustrations
213 s/w Abbildungen, 17 farbige Abbildungen
XVI, 696 p. 230 illus., 17 illus. in color.
Dimensions
Height: 241 mm
Width: 160 mm
Thickness: 44 mm
Weight
1221 gr
ISBN-13
978-3-319-47969-9 (9783319479699)
DOI
10.1007/978-3-319-47971-2
Schweitzer Classification
Other editions
Additional editions
Oscar Castro-Orgaz | Willi H. Hager
Non-Hydrostatic Free Surface Flows
Book
05/2018
Springer
€213.99
Shipment within 10-15 days
Oscar Castro-Orgaz | Willi H. Hager
Non-Hydrostatic Free Surface Flows
E-Book
03/2017
Springer
€213.99
Available for download
Persons
Oscar Castro-Orgaz is a Professor of Hydraulic Engineering at the University of Córdoba, Spain. He has written more than 50 papers in peer-reviewed journals of hydraulics and fluid mechanics and serves
as reviewer for the main journals on these topics. He is also Associate Editor of the Journal of Hydraulic Engineering ASCE, and Editorial Board Member of Environmental Fluid Mechanics,
Springer.
Willi H. Hager is Professor of Hydraulics at the Swiss Federal Institute of Technology, ETHZ. He has written more than 500 papers, of which more than half in peer-reviewed journal, mainly on open channel flows, pipe flows, scour, erosion, impulse waves, wastewater hydraulics and supercritical flows. He also wrote more than 20 books in these topics. He served from 2006 to 2011 as Editor of the Journal of Hydraulic Research, and was the recipient of various international awards.
as reviewer for the main journals on these topics. He is also Associate Editor of the Journal of Hydraulic Engineering ASCE, and Editorial Board Member of Environmental Fluid Mechanics,
Springer.
Willi H. Hager is Professor of Hydraulics at the Swiss Federal Institute of Technology, ETHZ. He has written more than 500 papers, of which more than half in peer-reviewed journal, mainly on open channel flows, pipe flows, scour, erosion, impulse waves, wastewater hydraulics and supercritical flows. He also wrote more than 20 books in these topics. He served from 2006 to 2011 as Editor of the Journal of Hydraulic Research, and was the recipient of various international awards.
Content
1. Introduction.- 2. Vertically integrated non-hydrostatic free surface flow equations.- 3. Inviscid channel flows.- 4. Seepage flows.- 5. Viscous channel flows.- 6. Granular flows.- 7. Concluding remarks.- Appendices.