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Circular Hydraulic Jump
Hydraulic jumps involving radial flow, as in diverging stilling basins, have not been properly analyzed. Dynamical considerations disclose that the radial flow jump involves a force not found in the rectangular jump. As a consequence, the sequent depth and energy loss for a radial jump are less and greater respectively than that for a rectangular jump. In addition, experimental findings indicate that the length of the radial jump is less than that of the rectangular jump.
Circular Hydraulic Jump
Hydraulic jumps involving radial flow, as in diverging stilling basins, have not been properly analyzed. Dynamical considerations disclose that the radial flow jump involves a force not found in the rectangular jump. As a consequence, the sequent depth and energy loss for a radial jump are less and greater respectively than that for a rectangular jump. In addition, experimental findings indicate that the length of the radial jump is less than that of the rectangular jump.
Circular Hydraulic Jump
Koloseus, Herman J. (author) / Ahmad, Daud (author)
Journal of the Hydraulics Division ; 95 ; 409-422
2021-01-01
141969-01-01 pages
Article (Journal)
Electronic Resource
Unknown
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