Physical modeling of ski-jump spillway to evaluate dynamic pressure
The effects of changes in the angle of pool impact plate, plunging depth, and discharge upon the dynamic pressure caused by ski-jump buckets were investigated in the laboratory. Four impact plate angles and four plunging depths were used. Discharges of 67, 86, 161, and 184 L/s were chosen. For any d...
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my.uniten.dspace-129122020-07-07T04:15:02Z Physical modeling of ski-jump spillway to evaluate dynamic pressure Moghadam, M.K. Amini, A. Malek, M.A. Mohammad, T. Hoseini, H. The effects of changes in the angle of pool impact plate, plunging depth, and discharge upon the dynamic pressure caused by ski-jump buckets were investigated in the laboratory. Four impact plate angles and four plunging depths were used. Discharges of 67, 86, 161, and 184 L/s were chosen. For any discharge, plunging depth and impact plate angle were regulated, and dynamic pressures were measured by a transducer. The results showed that with the increase in the ratio of drop length of the jet to its break-up length (H/Lb), and with an increase in the impact plate angle, the mean dynamic pressure coefficient decreased. An inspection of the plunging depth (Y) ratio to the initial thickness of the jet (Bj) revealed that when Y/Bj > 3, the plunging depth of the downstream pool reduced dynamic pressure. At the angle of 60°, the dynamic pressure coefficient due to increasing in plunging depth varied from 34% to 95%. © 2019 by the authors. 2020-02-03T03:27:45Z 2020-02-03T03:27:45Z 2019 Article 10.3390/w11081687 en |
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The effects of changes in the angle of pool impact plate, plunging depth, and discharge upon the dynamic pressure caused by ski-jump buckets were investigated in the laboratory. Four impact plate angles and four plunging depths were used. Discharges of 67, 86, 161, and 184 L/s were chosen. For any discharge, plunging depth and impact plate angle were regulated, and dynamic pressures were measured by a transducer. The results showed that with the increase in the ratio of drop length of the jet to its break-up length (H/Lb), and with an increase in the impact plate angle, the mean dynamic pressure coefficient decreased. An inspection of the plunging depth (Y) ratio to the initial thickness of the jet (Bj) revealed that when Y/Bj > 3, the plunging depth of the downstream pool reduced dynamic pressure. At the angle of 60°, the dynamic pressure coefficient due to increasing in plunging depth varied from 34% to 95%. © 2019 by the authors. |
| format |
Article |
| author |
Moghadam, M.K. Amini, A. Malek, M.A. Mohammad, T. Hoseini, H. |
| spellingShingle |
Moghadam, M.K. Amini, A. Malek, M.A. Mohammad, T. Hoseini, H. Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| author_facet |
Moghadam, M.K. Amini, A. Malek, M.A. Mohammad, T. Hoseini, H. |
| author_sort |
Moghadam, M.K. |
| title |
Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| title_short |
Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| title_full |
Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| title_fullStr |
Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| title_full_unstemmed |
Physical modeling of ski-jump spillway to evaluate dynamic pressure |
| title_sort |
physical modeling of ski-jump spillway to evaluate dynamic pressure |
| publishDate |
2020 |
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1672614190197506048 |