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An efficient integrated optimization framework for conceptual design of floater for floating wind turbines: A case study

Changen Li, Peng Chen, Yidi Shui, Zhengshun Cheng, Shuaishuai Wang and Gareth Erfort

Renewable Energy, 2025, vol. 245, issue C

Abstract: The integrated design of floating wind turbines (FWTs) holds significant promise for cost reduction, but applying existing optimization algorithms remains challenging due to efficiency issues. This paper proposes an Integrated Design Optimization (IDO) framework to address these challenges in the conceptual design of floater for FWTs. The IDO framework consists of three key modules: Floater design, Integrated modeling and analysis, and Optimization. The Floater design module includes panel meshing, adaptive ballast redistribution, hydrostatic property analysis, and hydrodynamic coefficients calculation, which are integrated to evaluate the platform's stability and preliminary hydrodynamic performance. The Integrated modeling and analysis module extends an in-house frequency-domain (FD) code to estimate the dynamic responses of the FWT system efficiently, which is verified by comparison with SESAM software. The Optimization module optimizes the dimensions according to design criteria and constraints about stability, safety, and cost-effectiveness. A case study of three-column semi-submersible platforms supporting the IEA 15 MW wind turbine demonstrates the framework's application. Results show that the final optimized floater design complies with regulatory standards, achieving a 40 % reduction in the pitch motion and a 17 % decrease in the tower base fore-aft bending moment. This research offers valuable technical support for the design and optimization of FWTs.

Keywords: Floating wind turbine; Conceptual design; Integrated design optimization; Frequency domain method (search for similar items in EconPapers)
Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:eee:renene:v:245:y:2025:i:c:s0960148125004355

DOI: 10.1016/j.renene.2025.122773

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