Knowing flow pattern, especially stream tube dimensions at the vicinity of a lateral intake is important to study flow discharge and sediment rate entering to the intake as well as to better design a measure for controlling sediment entry into the intake. Previous studies have been focused on intake from rectangular channels. In the present study, however, different experimental tests were carried out at a 30 degree water intake installed at bank of a trapezoidal channel to measure the three components of flow velocities; these data were then applied to calibrate the numerical SSIIM2 model; by running the SSIIM2 model for different flow conditions, more data were obtained. From the analysis of both experimental and numerical data the flow patterns upstream of intake were plotted and the stream tube dimensions were obtained for all flow conditions. It was found that the dividing stream width for intake from trapezoidal canal at the bottom is less than it is for intake from rectangular canal for the same flow conditions; the width at any elevation was found to depend directly on the diversion flow ratio. Relations for predicting dividing stream width as a function of diversion flow ratio have been presented for intake from both rectangular and trapezoidal cross sections. Also, computed secondary current strength at the intake entrance, which is an effective parameter in transporting sediment to the intake, showed that it is a function of flow diversion ratio and for intake from trapezoidal channel it is less than from rectangular channel.

• 出版日期2014-2