Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Temperature Effects in High-Transport, Flat-Bed Flows
Flume experiments show that in flows over flat beds of fine sand, the concentration of suspended load near the bed and the bed-load discharge of different size fractions of the bed sediment react differently to a change in water temperature. For example, an increase in water temperature alone caused the concentration near the bed and the bed-load discharge to increase for the finer fractions of the sediment and to decrease for the coarser fractions. The reaction of bed-load discharge of sediment of a given size to changes in water temperature can be expressed in terms of the boundary Reynolds number, R∗b, which is formed of the product of shear velocity and sediment diameter divided by the kinematic viscosity of the water. An increase in temperature will cause an increase in bed-load discharge of a particular size fraction when R∗b based on the mean size of the fraction is less than 13, and a decrease in bed-load discharge when R∗b exceeds 20.
Temperature Effects in High-Transport, Flat-Bed Flows
Flume experiments show that in flows over flat beds of fine sand, the concentration of suspended load near the bed and the bed-load discharge of different size fractions of the bed sediment react differently to a change in water temperature. For example, an increase in water temperature alone caused the concentration near the bed and the bed-load discharge to increase for the finer fractions of the sediment and to decrease for the coarser fractions. The reaction of bed-load discharge of sediment of a given size to changes in water temperature can be expressed in terms of the boundary Reynolds number, R∗b, which is formed of the product of shear velocity and sediment diameter divided by the kinematic viscosity of the water. An increase in temperature will cause an increase in bed-load discharge of a particular size fraction when R∗b based on the mean size of the fraction is less than 13, and a decrease in bed-load discharge when R∗b exceeds 20.
Temperature Effects in High-Transport, Flat-Bed Flows
Taylor, Brent D. (Autor:in) / Vanoni, Vito A. (Autor:in)
Journal of the Hydraulics Division ; 98 ; 2191-2206
01.01.2021
161972-01-01 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Temperature effects in high-transport, flat-bed flows
| TIBKAT | 1972
Temperature Effects in Low-Transport, Flat-Bed Flows
| ASCE | 2021
Temperature effects in low-transport, flat-bed flows
| TIBKAT | 1972