Ski Jump Hydraulics
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VIEW THE REPLYPublication: Journal of Hydraulic Engineering
Volume 131, Issue 5
Abstract
Ski jumps are a major element of each dam spillway because these are the only structures able to accomplish satisfactory energy dissipation for takeoff velocities in excess of some . This research aims to add to several hydraulic problems with ski jumps that have not yet been systematically solved so far. Based on an experimental campaign, the following problems were addressed: (1) pressure head maximum and pressure distribution along a circular-shaped flip bucket; (2) takeoff characteristics for a certain bucket deflection and a relative bucket curvature including the jet trajectories of both the lower and the upper nappes; (3) impact characteristics in a prismatic tailwater channel with details of shock wave formation and height of recirculation depth; (4) energy dissipation across the ski jump, from the upstream channel to downstream of jet impact; and (5) choking flow conditions by the flip bucket. These results demonstrated the significant effect of the approach Froude number, the relative bucket curvature and the bucket angle. The results allow immediate application to the design of ski jumps in hydraulic engineering.
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References
Juon, R., and Hager, W. H. (2000). “Flip bucket without and with deflectors.” J. Hydraul. Eng., 126(11), 837–845.
Rajan, B. H., and Shivashankara Rao, K. N. (1980). “Design of trajectory buckets.” J. Irrig. Power India, 37(1), 63–76.
Shivashankara Rao, K. N. (1982). “Design of energy dissipators for large capacity spillways.” Proc., Brazilian Committee on Large Dams, Rio de Janeiro, Brazil, 1, 311–328.
Varshney, R. S., and Bajaj, M. L. (1970). “Ski-jump buckets on Indian dams.” J. Irrig. Power India, 27(4), 383–393.
Vischer, D. L., and Hager, W. H. (1995). Energy dissipators, Balkema, Rotterdam, the Netherlands.
Information & Authors
Information
Published In
Journal of Hydraulic Engineering
Volume 131 • Issue 5 • May 2005
Pages: 347 - 355
Copyright
© 2005 ASCE.
History
Received: May 21, 2004
Accepted: Dec 9, 2004
Published online: May 1, 2005
Published in print: May 2005
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