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论文类型：期刊论文

发表时间：2021-03-05

发表刊物：OCEAN ENGINEERING

卷号：217

ISSN号：0029-8018

关键字：T-foil; Ride control system; Control strategies; Head seas; Slender body theory

摘要：An active control T-foil can significantly reduce the vertical motions of high-speed ships. In this paper, a hybrid control method is proposed to control the T-foil. The reduction effects of the method, along with passive, linear and step controls, are numerically investigated. A numerical model is introduced firstly. Then the numerical predictions are compared with experimental measurements to validate the numerical model. Finally, the heave, pitch and local acceleration of the Wigley model III are predicted under four control strategies at two forward speeds (Fr = 0.3, 0.5). Based on the percentage reduction of vertical motions, the local velocity signal performs better than the pitch velocity signal. The reduction effect of the linear control is critical when the encounter frequency is high but limited when the encounter frequency becomes lower. The step control has the best effect at Fr = 0.3, but it aggravates the vertical motions in some cases at Fr = 0.5. The hybrid control offers the advantages of both linear and step controls and significantly reduces the vertical motions. The performance of the method is dominated by a parameter, CI, which makes the strategy take effect more stable and fit diverse sea conditions.