Co-locating offshore wind and floating solar farms – effect of high wind and wave conditions on solar power performance

Co-locating offshore wind and floating solar farms – effect of high wind and wave conditions on solar power performance

The co-location of offshore wind and floating solar farms is an attractive hybrid option that optimizes the areal power density for the renewable power production. However, an important consideration remains whether the strong waves expected in the high-wind environment would cause large displacemen...

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Bibliographic Details
Main Authors: Bi, Cheng, Law, Adrian Wing-Keung
Other Authors: School of Civil and Environmental Engineering
Format: Article
Language:English
Published: 2023
Subjects:
Engineering::Environmental engineering
Floating Solar Farm
Power Output
Online Access:https://hdl.handle.net/10356/164309
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Institution: Nanyang Technological University
Language: English
Description
Summary:The co-location of offshore wind and floating solar farms is an attractive hybrid option that optimizes the areal power density for the renewable power production. However, an important consideration remains whether the strong waves expected in the high-wind environment would cause large displacement of the floating solar panels and therefore significantly affect the solar power output. The present study addresses this research question by simulating the power output of a floating solar array under various high wind and wave conditions at three offshore locations, considering the effects of temperature, humidity, wind speed and wave characteristics on the system electrical behavior. The wave-platform interaction is solved with fully developed sea states to predict the fluctuating tilt angles of the solar panels. Subsequently, the total solar power output is obtained considering the solar irradiation and the estimated operating temperature. The results show that the relative changes are small in all cases, implying that the solar power output would remain stable even under high wind and wave conditions. The optimal tilt angle of the floating PV panels is also examined for the three offshore locations. The study validates the feasibility of hybrid offshore wind-solar farms, provided that structural safety has been properly considered.

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