Three‐Dimensional Flow Structure at Open‐Channel Diversions
Publication: Journal of Hydraulic Engineering
Volume 119, Issue 11
Abstract
An experimental investigation of the flow structure at a 90° open‐channel diversion is presented. Velocity data obtained in a laboratory flume show that the flow at an open‐channel diversion is three‐dimensional, exhibiting similar characteristics to river bend flows. The behavior of three‐dimensional features, including the dividing stream‐plane and the strength of a secondary circulation, were found to depend upon the roughness of the main channel bed and the ratio of diversion flow velocity to main flow velocity. Results of this study indicate that a description of sediment‐transport behavior at diversions requires the understanding of the three‐dimensional flow structure and the application of sophisticated modeling techniques. The results also suggest a strong analogy between diversion flows and bend flows. The similarity between diversion and bend flows may justify the application of relatively simple bend‐flow models to predict the three‐dimensional flow features at open‐channel diversions.
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References
1.
Blench, T., Bondurant, D. C., and Thomas, A. R. (1952). “Discussions of ‘Diversions from alluvial channels,’ by C. Lindner.” Proc., ASCE, New York, N.Y., 78(D‐112), 1–7.
2.
Hager, W. H. (1984). “An approximate treatment of flow in branches and bends.” Proc., Inst. of Mech. Engrs., 198C(4), 63–69.
3.
Kasthuri, B., and Pundarikanthan, N. V. (1987). “Discussion of ‘Separation zone at open channel junctions.’” J. Hydr. Engrg., ASCE, 113(4), 543–544.
4.
Lakshmana, R. N. S., Sridharan, K., and Baig, M. Y. A. (1968). “Experimental study of the division of flow in an open channel.” Australasian Conf. on Hydr. and Fluid Mech., Sydney, Australia, 139–142.
5.
Law, S. W., and Reynolds, A. J. (1966). “Dividing flow in an open channel.” J. Hydr. Div., ASCE, 92(2), 207–231.
6.
Lindner, C. (1952). “Diversions from alluvial channels.” J. Hydr. Div., ASCE, 78(112), 1–25.
7.
Nakato, T., Kennedy, J. F., and Bauerly, D. (1990). “Pump station intake‐shoaling control with submerged vanes.” J. Hydr. Engrg., ASCE, 116(1), 119–128.
8.
Neary, V. S. (1992). “Flow structure at an open channel diversion,” MSc thesis University of Iowa, Iowa City, Iowa.
9.
Ramamurthy, A. S., and Satish, M. G. (1988). “Division of flow in short open channel branches.” J. Hydr. Engrg., ASCE, 114(4), 428–438.
10.
Reid, W. H. (1958). “On the stability of viscous flow in a curved channel.” Proc. Royal Soc. of London, A244, 186–198.
11.
Sediment control at intakes. (1989). P. Avery, ed., BHRA, Fluid Engineering Center, Cranfield, England.
12.
Sedimentation engineering. (1975). V. A. Vanoni, ed., ASCE, New York, N.Y.
13.
Taylor, E. H. (1944). “Flow characteristics at rectangular open‐channel junctions.” Trans., ASCE, 109, 893–912.
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Copyright © 1993 American Society of Civil Engineers.
History
Received: Sep 8, 1992
Published online: Nov 1, 1993
Published in print: Nov 1993
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