Combining Open Channel Flow at Right Angled Junctions
Publication: Journal of Hydraulic Engineering
Volume 114, Issue 12
Abstract
In combining open channel flow, the rise in the upstream flow depth due to the effect of lateral inflow from the branch channel can be significant. For right‐angled, sharp‐edged junctions of rectangular channels, a relation between the depth of flow at the junction and the ratio of the lateral discharge to the total discharge is derived on the basis of the momentum principle. Using this relationship, one can predict the rise in the flow depth when the undisturbed flow conditions in the channels are specified. In the proposed model, the contribution of the momentum transfer from the branch channel to the main channel is included, as this factor can be significant when the lateral discharge is relatively large. The proposed relationship is verified with the results of experiments related to combining flows for which the flow conditions downstream of the junction are both critical and unsubmerged. The study of combining flow at right angle junctions has a direct application in drainage network systems and river engineering.
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References
1.
ASME Research Committee on Fluid Meters. Fluid Meters. 6th Ed., ASME, New York, N.Y., 115–120.
2.
Bajura, R. A. (1970). “A model for flow distribution in manifolds.” Proc. ASME Joint Power Generation Conf., Pittsburgh, Pa., 27–30.
3.
Best, J. L., and Reid, I. (1984). “Separation zone at open channel junctions.” J. Hydr. Engrg., ASCE, 110(11), 1588–1593.
4.
Carballada, B. L. (1979). “Combining flow in open channels and blockage phenomenon.” Internal report RSH 43‐79‐49, Hydraulic Division, Hydro Quebec, Montreal, Canada.
5.
Joy, D. M., and Townsend, R. D. (1981). “Improved flow characteristics at a 90° channel confluence.” 5th Canadian Hydrotechnical Conf., Fredericton, New Brunswick, 781–799.
6.
Lin, J. D., and Soong, H. K. (1979). “Junction losses in open channel flows.” Water Resour. Res., 15(2), 414–418.
7.
Lorah, W. L. (1966). “Free‐surface flow energy losses in a 90° junction box,” thesis presented to Colorado State University, at Fort Collins, Colo., in partial fulfillment of the requirements for the degree of Master of Science.
8.
McNown, J. S. (1954). “Mechanics of manifold flow.” Trans., ASCE, 119, 1103–1142.
9.
Modi, P. N., Ariel, P. D., and Dandekar, M. M. (1981). “Conformal mapping for channel junction flow.” J. Hydr. Engrg. Div., ASCE, 107(12), 1713–1733.
10.
Taylor, E. H. (1944). “Flow characteristics at rectangular open channel junctions.” Trans., ASCE, 109, 893–912.
11.
Webber, N. B., and Created, C. A. (1966). “An investigation of flow behaviour at the junction of rectangular channels.” Proc. Inst. Civ. Engrs., 34, 321–334.
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Copyright © 1988 ASCE.
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Published online: Dec 1, 1988
Published in print: Dec 1988
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