Responses of a Modular Floating Wind TLP of MarsVAWT Supporting a 10 MW Vertical Axis Wind Turbine

IF 1.3 4区 工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY Wind and Structures Pub Date : 2023-11-06 DOI:10.3390/wind3040029
Sung Youn Boo, Steffen Allan Shelley, D. Todd Griffith, Alejandra S. Escalera Mendoza
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Abstract

Offshore floating wind foundations supporting a large wind turbine require a large yard facility or significant facility upgrades for their fabrication. To overcome the cost increase associated with facility upgrades, an innovative lightweight modular floating foundation is developed. The foundation comprises multiple modules to enable their assembly on water, offering many benefits and expanding fabrication options for a reduction in the overall cost of the platform. In this paper, the foundation modules and their assembly are briefly described, and an analysis of the platform’s dynamic responses is presented. The modular foundation includes a modular and lightweight tension leg platform (TLP) called “MarsVAWT” which supports a Darrieus 10 MW vertical axis wind turbine (VAWT). The platform is moored with highly pretensioned wire rope tendons. The responses of the platform are analyzed in the time domain in a semi-coupled manner under the turbine operating and parked conditions for an offshore site in the US Northeast. The tower base shear forces and bending moments increase considerably with the combination of wind and waves, compared to those with wind only. The tendon tensions on the weatherside in the operating condition at high wind speeds are comparable to the values of the 50-year extreme (parked). The tendon tension increases are highly correlated to the platform pitch, as well as the horizontal and vertical velocities and vertical acceleration at the tendon porch. The modular platform performances and tendon designs are confirmed to comply with industry standards and practices.
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MarsVAWT模块化浮式风力张力腿平台支撑10mw垂直轴风力机的响应
支撑大型风力涡轮机的海上浮式风力基础需要大型堆场设施或重大设施升级来制造。为了克服与设施升级相关的成本增加,开发了一种创新的轻量级模块化浮动基础。基础由多个模块组成,使其能够在水上组装,提供了许多好处,并扩大了制造选择,以降低平台的总体成本。本文简要介绍了基础模块及其组合,并对平台的动力响应进行了分析。模块化基础包括一个名为“MarsVAWT”的模块化轻型张力腿平台(TLP),该平台支持Darrieus 10兆瓦垂直轴风力涡轮机(VAWT)。平台系泊在高度张紧的钢丝绳筋上。在美国东北部海上平台,以半耦合的方式分析了涡轮机运行和停放条件下平台的时域响应。风浪作用下的塔基剪力和弯矩比单风作用下的塔基剪力和弯矩明显增大。在高风速运行条件下,风侧的肌腱张力可与50年极值(停车)相媲美。筋张力的增加与平台间距、水平和垂直速度以及筋廊处的垂直加速度高度相关。模块化平台的性能和肌腱设计符合行业标准和实践。
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来源期刊
Wind and Structures
Wind and Structures 工程技术-工程:土木
CiteScore
2.70
自引率
18.80%
发文量
0
审稿时长
>12 weeks
期刊介绍: The WIND AND STRUCTURES, An International Journal, aims at: - Major publication channel for research in the general area of wind and structural engineering, - Wider distribution at more affordable subscription rates; - Faster reviewing and publication for manuscripts submitted. The main theme of the Journal is the wind effects on structures. Areas covered by the journal include: Wind loads and structural response, Bluff-body aerodynamics, Computational method, Wind tunnel modeling, Local wind environment, Codes and regulations, Wind effects on large scale structures.
期刊最新文献
Challenges and Perspectives of Wind Energy Technology Responses of a Modular Floating Wind TLP of MarsVAWT Supporting a 10 MW Vertical Axis Wind Turbine Wind Power Forecasting in a Semi-Arid Region Based on Machine Learning Error Correction Scaling Challenges for Conical Plain Bearings as Wind Turbine Main Bearings Numerical Modeling and Application of Horizontal-Axis Wind Turbine Arrays in Large Wind Farms
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