National Taiwan University, Department of Naval Architecture and Ocean EngineeringCHAO-LUNG TINGLin, Ming-ChungMing-ChungLinCheng, Chih-YuanChih-YuanCheng2006-11-152018-06-282006-11-152018-06-282004http://ntur.lib.ntu.edu.tw//handle/246246/2006111501254734This study investigated how the porosity of submerged breakwaters affects non-breaking wave transformations. Eight model geometries each with six different porosities, from 0.421 to 0.912, were also considered. Experimental results reveal that the model width has little effect on wave reflection & transmission when the model heights are fixed. The transmission coefficient is maximum at a kh in the range from 1.3 to 2.0 & minimum at a kh around 0.7. The wave reflection maximum is at kh of near 0.5. The energy loss of the primary waves is maximum near kh = 0.81 & minimum when the porosity of the model is large. Porosity does affect wave transformation & its influence becomes significant as the heights of the models increase. For the range of porosities tested, wave energy loss from the primary harmonic was found to be almost constant at around 0.4 when kh >1.3, decreasing slowly when kh < 1.3; wave energy loss decreases for porosities above 0.75.application/pdf942576 bytesapplication/pdfzh-TWPorosity effectReflection coefficientTransmission coefficientPermeable submerged breakwaterEnergy lossjournal article10.1016/j.coastaleng.2003.10.0032-s2.0-1342266662http://ntur.lib.ntu.edu.tw/bitstream/246246/2006111501254734/1/5615.pdf