Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Two-Dimensional Numerical Wave Simulation for Port with Submerged Breakwater
Engineering designs often come upon with steady mooring problems in a wide range of port with submerged breakwater. Plane physical model is difficult to implement due to spatial limitation and, so far, there is no effective numerical method to solve practical engineering problems by two-dimensional simulation. This paper first verifies the empirical formulas for transmission coefficient of submerged breakwaters in domestic and international researches against the results of sectional physical model. The verification shows that the calculated results with the empirical formula of Yang (1981) are the most consistent with the measured data and a bit conservative. Based on Yang’s formula, porosity coefficient is used to simulate the integrated effect resulted from the physical features of overtopping, wave transmission and reflection on a prototype submerged breakwater. Then a plane physical model test is carried out to verify the simulation and the results are in good agreement. This paper provides an effective numerical simulation method for wave protection of ports with submerged breakwater.
Two-Dimensional Numerical Wave Simulation for Port with Submerged Breakwater
Engineering designs often come upon with steady mooring problems in a wide range of port with submerged breakwater. Plane physical model is difficult to implement due to spatial limitation and, so far, there is no effective numerical method to solve practical engineering problems by two-dimensional simulation. This paper first verifies the empirical formulas for transmission coefficient of submerged breakwaters in domestic and international researches against the results of sectional physical model. The verification shows that the calculated results with the empirical formula of Yang (1981) are the most consistent with the measured data and a bit conservative. Based on Yang’s formula, porosity coefficient is used to simulate the integrated effect resulted from the physical features of overtopping, wave transmission and reflection on a prototype submerged breakwater. Then a plane physical model test is carried out to verify the simulation and the results are in good agreement. This paper provides an effective numerical simulation method for wave protection of ports with submerged breakwater.
Two-Dimensional Numerical Wave Simulation for Port with Submerged Breakwater
Applied Mechanics and Materials ; 226-228 ; 1343-1347
29.11.2012
5 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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