Experimental investigation into wave interaction with a rubble-mound submerged breakwater (case study)
Experimental tests on the interaction between waves and a submerged rubble-mound breakwater (SBW) were performed in the wave flume at the Institute of Hydroengineering PAS in Gdańsk (Poland). A model of a submerged breakwater was prepared based on the constructions built in 2006 in the Polish zone o...
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| Published in | Journal of marine science and technology Vol. 22; no. 2; pp. 313 - 326 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
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Tokyo
Springer Japan
01.06.2017
Springer Springer Nature B.V |
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| Abstract | Experimental tests on the interaction between waves and a submerged rubble-mound breakwater (SBW) were performed in the wave flume at the Institute of Hydroengineering PAS in Gdańsk (Poland). A model of a submerged breakwater was prepared based on the constructions built in 2006 in the Polish zone of the Baltic coast, in Gdańsk Bay, in the region of Gdynia Orłowo (Orłowo Cliff). The tests were carried out for regular waves (varying parameters: height, period, length, and steepness) whose parameters were determined on the basis of the actual wind field occurring in Gdańsk Bay. The experiment was conducted for two water levels corresponding to the actual long-term mean sea level (msl) of 500 cm as well as a storm surge of 550 cm. The research has focused on the analysis of the amount of wave energy transmitted into the lee region and the determination of parameters that affect the transmission size. Types of wave-breaking were described based on the extensive video and photographic documentation prepared during the measurements. Based on the results obtained from the experiment and the previous research on the functioning of submerged breakwaters in the coastal zone, including both numerical modelling as well as field research and field observations, the efficiency of the structure was assessed. |
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| AbstractList | Experimental tests on the interaction between waves and a submerged rubble-mound breakwater (SBW) were performed in the wave flume at the Institute of Hydroengineering PAS in Gdask (Poland). A model of a submerged breakwater was prepared based on the constructions built in 2006 in the Polish zone of the Baltic coast, in Gdask Bay, in the region of Gdynia Orowo (Orowo Cliff). The tests were carried out for regular waves (varying parameters: height, period, length, and steepness) whose parameters were determined on the basis of the actual wind field occurring in Gdask Bay. The experiment was conducted for two water levels corresponding to the actual long-term mean sea level (msl) of 500 cm as well as a storm surge of 550 cm. The research has focused on the analysis of the amount of wave energy transmitted into the lee region and the determination of parameters that affect the transmission size. Types of wave-breaking were described based on the extensive video and photographic documentation prepared during the measurements. Based on the results obtained from the experiment and the previous research on the functioning of submerged breakwaters in the coastal zone, including both numerical modelling as well as field research and field observations, the efficiency of the structure was assessed. Experimental tests on the interaction between waves and a submerged rubble-mound breakwater (SBW) were performed in the wave flume at the Institute of Hydroengineering PAS in Gdansk (Poland). A model of a submerged breakwater was prepared based on the constructions built in 2006 in the Polish zone of the Baltic coast, in Gdansk Bay, in the region of Gdynia Orlowo (Orlowo Cliff). The tests were carried out for regular waves (varying parameters: height, period, length, and steepness) whose parameters were determined on the basis of the actual wind field occurring in Gdansk Bay. The experiment was conducted for two water levels corresponding to the actual long-term mean sea level (msl) of 500 cm as well as a storm surge of 550 cm. The research has focused on the analysis of the amount of wave energy transmitted into the lee region and the determination of parameters that affect the transmission size. Types of wave-breaking were described based on the extensive video and photographic documentation prepared during the measurements. Based on the results obtained from the experiment and the previous research on the functioning of submerged breakwaters in the coastal zone, including both numerical modelling as well as field research and field observations, the efficiency of the structure was assessed. Experimental tests on the interaction between waves and a submerged rubble-mound breakwater (SBW) were performed in the wave flume at the Institute of Hydroengineering PAS in Gdańsk (Poland). A model of a submerged breakwater was prepared based on the constructions built in 2006 in the Polish zone of the Baltic coast, in Gdańsk Bay, in the region of Gdynia Orłowo (Orłowo Cliff). The tests were carried out for regular waves (varying parameters: height, period, length, and steepness) whose parameters were determined on the basis of the actual wind field occurring in Gdańsk Bay. The experiment was conducted for two water levels corresponding to the actual long-term mean sea level (msl) of 500 cm as well as a storm surge of 550 cm. The research has focused on the analysis of the amount of wave energy transmitted into the lee region and the determination of parameters that affect the transmission size. Types of wave-breaking were described based on the extensive video and photographic documentation prepared during the measurements. Based on the results obtained from the experiment and the previous research on the functioning of submerged breakwaters in the coastal zone, including both numerical modelling as well as field research and field observations, the efficiency of the structure was assessed. |
| Audience | Academic |
| Author | Kubowicz-Grajewska, Agnieszka |
| Author_xml | – sequence: 1 givenname: Agnieszka surname: Kubowicz-Grajewska fullname: Kubowicz-Grajewska, Agnieszka email: oceakg@univ.gda.pl organization: Department of Marine Geology, Faculty of Oceanography and Geography, University of Gdańsk |
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| CitedBy_id | crossref_primary_10_1017_qua_2024_8 crossref_primary_10_2112_SI83_042_1 crossref_primary_10_3390_jmse10121986 crossref_primary_10_1016_j_rineng_2022_100428 |
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| Copyright | JASNAOE 2016 COPYRIGHT 2017 Springer Journal of Marine Science and Technology is a copyright of Springer, 2017. |
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| Keywords | Transmission coefficient Submerged breakwater Wave flume Breaker type |
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| SubjectTerms | Automotive Engineering Breakwaters Case studies Coastal zone Coastal zones Coasts Engineering Engineering Design Engineering Fluid Dynamics Fluid dynamics Flumes Mathematical models Mean sea level Mechanical Engineering Modelling Ocean engineering Ocean waves Offshore Engineering Original Article Parameters Regular waves Rubblemound breakwaters Sea level Slopes Storm surges Storms Video transmission Water levels Wave energy Wave interaction Wave power |
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