In recent years, research on wave energy development and utilization has been a hot topic, and many scholars have intensively researched raft-type energy conversion devices. This paper considers an elliptical and cylindrical raft wave energy conversion device from the perspective of stability and bionics to determine the structural parameters that correspond to optimal energy conversion in a three-level sea state. This paper studies the theoretical wave energy capture efficiency of cylindrical floats by drawing an analogy from the theoretical model. In addition, this paper determines the float structural parameters corresponding to the optimum capture efficiency by formulating numerical simulations and optimizing the parameters, such as the axis ratio of the cross-section, the spacing, the draught, the number of floats, the length of the float, the height of float's center of gravity, and others. In the optimization process, these six parameters were briefly analyzed in reference to the design of the Pelamis. The length of the float and the axial ratio of the cross-section are the main factors affecting the capture efficiency of the device. Therefore, the optimization sequence of the six parameters was determined by first controlling the main factors and then controlling the other factors. Then, the values of all the parameters were determined. The structural parameters of the float were observed to significantly influence the energy capturing effect of the device, and its efficiency was increased by intelligently selecting the structural parameters. Finally, the structural parameters of the elliptical and cylindrical raft wave energy conversion device were determined by comparing the capture efficiency under five typical wave conditions (WT.1 to WT.5) in a three-level sea state.
Abstract-As a promising renewable resource to replace part of the energy supply, the wave energy is having more and more interest worldwide. This paper presents a comprehensive analysis of different wave energy technologies in order to identify more promising methods for power supply to tropical reefs. It starts with summarizing the characteristics of tropical reefs in which the most suitable places to be exploited are showed, and the classification of different types of wave energy converters according to their construction features. It is also described in detail each of the stages that are part in the energy conversion. On the basis of the characteristics of tropical coral reefs the paper puts forward a new type of raft wave energy device which can achieve high operational reliability and adaptability with cost-effective deployment.
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