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Abstract
The aim of this study was to investigate the effect of an upstream slope and its roughness on the run-up level of waves. In this study, it was attempted to propose an appropriate and effective solution regarding the issue of wave run-up on seawalls through using a sloping seawall and examining the roughness on these slopes.
The intended slopes for seawalls were 22, 27, 32, 39 degrees, respectively and had the roughness heights on wall surface were 15 cm, 20 cm and 30 cm. Moreover, four types of roughness layouts on the wall surface were investigated. The results, obtained from investigating the effect of slope and roughness on the run-up level of waves, were analyzed after drawing tables and figures. The results show that by increasing slope gradient of the structure, the run-up level also increases, thus, it can be concluded that the run-up level is directly correlated to the structure gradient. The highest run-up level is related to a diagram with a slope of 39 degrees and its lowest level is related to a slope of 22 degrees. Furthermore, the layout type 3 was recognized to be the best layout having the lowest run-up level. The results also revealed that the best and most efficient height for roughness is equal to 30 cm which has the lowest run-up level in all the slopes and layouts. Moreover, the impact of run-up was investigated according to the geometric shapes of layouts on the seawall surface and the results were presented.
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References
- Ahrens JP. 1981. Irregular wave run-up on smooth slopes. CETA NO. 81-17. U.S. Army corps of engineers. Ft. Belvoir(VA): coastal Engineering Research center. 57
- Granthem, K.N., 1953. A model study of wave run-up on sloping structures, technical Report, Series 3,Issue 348, Institute of Engineering, Research, University of California, Berkeley, California.
- Hunt, I. A., Jr. 1959. “Design of seawall and breakwaters.” J.Wtrwy. and Harb. Div., ASCE, 85(3), 123-152.
- Savage, R.P., 1958. Wave run-up on roughened and permeable slopes. Journal of the Waterways and Harbors Division, vol. 84, no. WW3. American Society of Civil Engineers, pp. 1640-1-1640-38.
- Saville Jr., T., 1955. Laboratory data on wave run-up and overtopping on shore structure, Technical Memorandum No. 64, Beach Erosion Board, U.S. Army Corps of Engineers, Washington, DC.
- Van Der Meer, J.W., Stam, C. J.M., 1992. Water run-up On smooth and rock slopes of coastal structures. Journal of waterway, Port, coastal, and Ocean Engineering vol. 118, no. American Society of Civil Engineers, pp. 534-550
References
Ahrens JP. 1981. Irregular wave run-up on smooth slopes. CETA NO. 81-17. U.S. Army corps of engineers. Ft. Belvoir(VA): coastal Engineering Research center. 57
Granthem, K.N., 1953. A model study of wave run-up on sloping structures, technical Report, Series 3,Issue 348, Institute of Engineering, Research, University of California, Berkeley, California.
Hunt, I. A., Jr. 1959. “Design of seawall and breakwaters.” J.Wtrwy. and Harb. Div., ASCE, 85(3), 123-152.
Savage, R.P., 1958. Wave run-up on roughened and permeable slopes. Journal of the Waterways and Harbors Division, vol. 84, no. WW3. American Society of Civil Engineers, pp. 1640-1-1640-38.
Saville Jr., T., 1955. Laboratory data on wave run-up and overtopping on shore structure, Technical Memorandum No. 64, Beach Erosion Board, U.S. Army Corps of Engineers, Washington, DC.
Van Der Meer, J.W., Stam, C. J.M., 1992. Water run-up On smooth and rock slopes of coastal structures. Journal of waterway, Port, coastal, and Ocean Engineering vol. 118, no. American Society of Civil Engineers, pp. 534-550