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Determinate Hydraulic Geometry of River Channels
Natural channels have the ability to adjust their flow and bankfull hydraulic geometry in response to flow conditions. Nine governing equations are necessary to define the complete adjustment process and relate channel response to discharge, sediment load, bed, and bank sediment, and the valley slope. A preliminary analysis enables the nature of this process-response model to be identified although insufficient information is known about all the processes for it to be used for design purposes. The necessary dependent and independent variables for the development of empirical design equations are identified by the model and it also confirms the determinate nature of alluvial channels.
Determinate Hydraulic Geometry of River Channels
Natural channels have the ability to adjust their flow and bankfull hydraulic geometry in response to flow conditions. Nine governing equations are necessary to define the complete adjustment process and relate channel response to discharge, sediment load, bed, and bank sediment, and the valley slope. A preliminary analysis enables the nature of this process-response model to be identified although insufficient information is known about all the processes for it to be used for design purposes. The necessary dependent and independent variables for the development of empirical design equations are identified by the model and it also confirms the determinate nature of alluvial channels.
Determinate Hydraulic Geometry of River Channels
Hey, Richard D. (author)
Journal of the Hydraulics Division ; 104 ; 869-885
2021-01-01
171978-01-01 pages
Article (Journal)
Electronic Resource
Unknown
| Taylor & Francis Verlag | 1979
| ASCE | 2021
| Engineering Index Backfile | 1964