Hydrodynamic Motion Behavior of Air-Cushion-Supported Hexagonal Floating Platform for Offshore Wind Turbine

Yining He, S. Hirabayashi, S. Tabeta, T. Nakajima, Yoshihiko Yamashita, Yuuki Yamashita, Motoko Imai
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Abstract

This paper presents an experimental study of a new floating platform, being supported by air-cushion modules. The platform consists of six hexahedron air cushion units in which their bottom is open to the water surface. A moonpool is placed in the middle of the platform. A 1:47 scale model was used for the measurement of heave, pitch and surge motions in regular wave conditions. To evaluate the effect of a hexahedron air cushion unit, that of barge-type model was tested. The results show that the motion behaviors of the hexagonal air-cushion-type platform are better than those of the barge-type platform in short wave conditions, while behaviors in long wavelength are almost the same. To evaluate the stability of the hexagonal air-cushion-type platform in windy conditions, a wind turbine of a circular disc-shape was installed on the platform. The thrust acting on the wind turbine and the wind velocity were measured simultaneously. Further, the inclination test of a three-blade wind turbine model was carried out. The results show that the tested hexagonal air-cushion-type platform is sufficiently stable for the practical use of wind turbines of a 20MW capacity. Similarly, platforms of larger size could be used for wind turbines larger than 20MW.
海上风力机气垫支承六方浮式平台的水动力运动特性
本文介绍了一种由气垫模块支撑的新型浮动平台的实验研究。该平台由六个六面体气垫单元组成,其底部向水面开放。月池被放置在平台的中央。采用1:47比例模型测量了规则波浪条件下的起伏、俯仰和浪涌运动。为了评价六面体气垫单元的效果,对驳船型模型进行了气垫单元的试验。结果表明:六方气垫式平台在短波条件下的运动性能优于驳船式平台,而在长波条件下的运动性能基本相同;为了评估六方气垫式平台在大风条件下的稳定性,在平台上安装了一个圆盘形风力发电机。同时测量了作用在风力机上的推力和风速。在此基础上,对三叶片风力机模型进行了倾斜试验。结果表明,所设计的六角形气垫式平台具有足够的稳定性,可以满足20MW风电机组的实际使用要求。同样,更大尺寸的平台可以用于大于20MW的风力涡轮机。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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