Journal of Korean Society of Coastal and Ocean Engineers (한국해안해양공학회지)
- Volume 8 Issue 3
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- Pages.221-230
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- 1996
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- 1017-7116(pISSN)
Wave Reflection from Partialy Perforated Caisson Breakwater
부분 유공 케이슨 방파제로부터의 파의 반사
- Suh, Kyung-Doug (Coastal Engineering Division, Korea Ocean Research & Development Institute)
- Published : 1996.09.01
Abstract
The Suh and Park's analytical model. originally developed to calculate wave reflection from a conventional fully perforated caisson breakwater, is applied to a partially perforated caisson breakwater by approximating the vertical wall of the lower part of the front face of the caisson as a very steep sloping wall. Also, in the model, the inertial resistance term at the perforated wall is modified by using the blockage coefficient proposed by Kakuno and Liu. The model is compared against the hydraulic experimental data reported by Park et al. in 1993. Both the experimental data and the analytical model results show that the influence of inertial resistance is important so that wave reflection becomes minimum when B/L. is approximately 0.2 (in which R : wave chamber width, and 1, : wave length inside the wave chamber), which is somewhat smaller than the theoretical value B/L, : 0.25 obtained by assuming that the influence of inertial resistance is negligible. It is also shown that the analytical model based on a linear wave theory tends to overpredict the reflection coefficient as the wave nonlinearity increases, thus the model is preferably to be used for ordinary waves of small steepness.
기존의 전유공 케이슨 방파제로부터의 파 반사를 계산하기 위하여 개발된 Suh and Park의 이론 모형을, 케이슨 전면 하부의 연직벽을 경사가 매우 급한 경사벽으로 가정함으로써, 부분 유공 케이슨 방파제에 적용하였다. 또한, 이 모형에서, Kano and Liu가 제안한 차단계수를 이용하여 유공벽에서의 관성저항항을 수정하였다. 이 모형을 1993년도에 보고된 Park et al.의 수리실험 자료와 비교해 본 결과, 실험 자료 및 이론 모형 결과에서 모두 관성저항의 영향이 중요하여 B/L
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