涡轮机
海洋工程
海上风力发电
非线性系统
阻力
工程类
海底管道
海洋岩土工程
波浪模型
浪涌
低频
风浪
环境科学
气象学
物理
航空航天工程
电气工程
岩土工程
电信
量子力学
热力学
作者
Lu Wang,Amy Robertson,Jason Jonkman,Yi-Hsiang Yu
标识
DOI:10.1016/j.renene.2022.01.053
摘要
In the OC5 and OC62 projects, the authors observed a persistent underprediction of the nonlinear, low-frequency responses of an offshore wind semisubmersible with many mid-fidelity engineering models, including the OpenFAST tool developed by the National Renewable Energy Laboratory. Both the low-frequency wave excitation in surge and pitch and the resulting resonance motions were severely underpredicted. In response, we developed several modifications to the OpenFAST model from the OC5/6 projects to improve the predictions of the low-frequency wave loads and responses. All modifications are in the modeling of the viscous drag forces. Efforts were made to provide physical justifications to the changes and to limit the number of additional parameters requiring tuning, so that the modified model can be applied to other floating wind systems. With the proposed modifications, the predictions of the low-frequency surge and pitch wave loads on a fixed floater and the resonance responses of a floating structure are both significantly improved with a single set of model coefficients, which leads to good agreement with the measurements from the OC6 wave-basin experimental campaign.
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