Sediment Transport in Shallow Subcritical Flow Disturbed by Simulated Rainfall
Abstract
Studies were conducted in a closed system recirculating research flume to evaluate the relative effects of high intensity rainfall on von Karman's universal constant and the sediment transport capacity of shallow flow The tests in this study were conducted at flow depths of 0.3 ft and less, with discharges less than 0.5 cfs. The point velocities in the flow were determined with a Pace CD-25 pressure transducer and an inclined manometer connected in parallel to a Pitot-static tube of the standard Prandtl design. Regression analyses were performed on the velocity data to determine the best fit dimensionless velocity curve on semilogarithmic paper. Von Karman's universal constant was then evaluated from the slope of the regression line.
Point sediment samples were siphoned from the flow with a stainless steel-pipette sediment sampler. Sediment concentrations were found with a filtering technique. Sediment samples were taken with and without rainfall to evaluate the relative effect of the rainfall on the transport capacity of shallow flow.
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Citation
Machemehl, J. L. (1968). Sediment Transport in Shallow Subcritical Flow Disturbed by Simulated Rainfall. Texas Water Resources Institute. Available electronically from https : / /hdl .handle .net /1969 .1 /94856.