The hydrodynamic response of the floating offshore photovoltaic platform foundation

¹ PowerChina Zhongnan Engineering Corporation Limited, 410019 Changsha, China
² Hunan Province Key Laboratory of Hydropower Development Key Technology, 410019 Changsha, China

^* Corresponding author: 330633026@qq.com

Abstract

With the increasing energy and the gradual exhaustion of fossil energy, the development of sustainable energy is imminent. The land-based photovoltaic power station has become increasingly saturated in terms of space, and the photovoltaic power layout is beginning to move towards the deep sea. Therefore, the research of floating offshore photovoltaic technology has become very important. However, the research on the basic design of floating offshore photovoltaic float is still in its infancy in China. Based on three-dimensional potential flow theory and Morison equation, this paper uses finite element method to simulate the hydrodynamic response of the float foundation, and the results show that the RAO peak response of the14m floating foundation is small and the intrinsic period is large, which is the best in the design scheme. Finally, the short-term forecast is made, which provides a certain guidance for the hydrodynamic analysis of the floating offshore photovoltaic project.