摘要
In this paper, we present the study of system dynamics of the floating kuroshio turbine(FKT) system which is designed to harness ocean current energy. We focus on the mooring line system design and its interaction with the FKT system. The effects of line diameter and two different auxiliary line systems were studied. Their responses in waves were also investigated. We integrated several commercial and in-house packages. The system buoyancy and weight and their centers were estimated using the Rhino software. The system hydrodynamic coefficients were obtained through WAMIT, system drag coefficient through FLUENT, turbine propulsive force through lifting surface code, and system dynamics through Orca Flex. The results show that the mooring line system can create strong influence on the FKT system operations in the ocean current environments.
In this paper, we present the study of system dynamics of the floating kuroshio turbine(FKT) system which is designed to harness ocean current energy. We focus on the mooring line system design and its interaction with the FKT system. The effects of line diameter and two different auxiliary line systems were studied. Their responses in waves were also investigated. We integrated several commercial and in-house packages. The system buoyancy and weight and their centers were estimated using the Rhino software. The system hydrodynamic coefficients were obtained through WAMIT, system drag coefficient through FLUENT, turbine propulsive force through lifting surface code, and system dynamics through Orca Flex. The results show that the mooring line system can create strong influence on the FKT system operations in the ocean current environments.
作者
吴若禔
陈建宏
辛敬业
邱逢琛
Jo-Ti Wu;Jiahn-Homg Chen;Ching-Yeh Hsin;Fomg-Chen Chiu(Department of Systems Engineering and Naval Architecture, National Taiwan Ocean University, Keelung, China;Department of Engineering Science and Ocean Engineering, National Taiwan University, Taipei, China)
基金
the grant from Ministry of Science and Technology, the Republic of China, under the contract MOST 105-3113-E-002019-CC2 and funding support from CSBC Corporation
