后掠角对阶梯式船体性能的影响

Nicholas Husser, S. Brizzolara
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引用次数: 2

摘要

在本研究中,利用RANS CFD研究了从通风开始(𝛻≈2)到高滑行速度(𝛻≈7)范围内的掠角对阶梯形船体阻力、运行姿态和动态稳定性的影响。使用固定的内饰模拟,在三种速度和两种排量下隔离了台阶的潜在性能优势。通过自由奔跑仿真,研究了不同LCG位置在最高速度下的奔跑姿态和动态稳定性差异。最后,使用固定纵倾和升沉模拟来研究低速下通风初始和性能的任何差异。研究表明,前掠步并不一定比其他步设计更早通风,但确实提供了阻力降低,其值为𝛻5,前掠步与后掠步相比阻力显著增加。在高速行驶时,后掠台阶与其他台阶设计相比,提供了更好的动态稳定性,而与未后掠台阶相比,没有阻力损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Impact of Sweep Angle on Stepped Planing Hull Performance
In this study the impact of sweep angle on stepped hull resistance, running attitude, and dynamic stability is investigated for a range of planing speeds from ventilation inception (𝐹𝛻≈2) to high planing speeds (𝐹𝛻≈7) using RANS CFD. Potential performance benefits of the step are isolated for three speeds and two displacements using fixed trim simulations. Differences in running attitude and dynamic stability are investigated using free running simulations at the highest speed for a range of LCG locations. Finally, any differences in ventilation inception and performance at low speeds are investigated using fixed trim and heave simulations. The study shows that swept forward steps do not necessarily ventilate earlier than other step designs but do provide resistance reductions at 𝐹𝛻<5 compared to swept aft and unstepped designs. However, at 𝐹𝛻>5, swept forward steps demonstrate significant resistance increases compared to unswept and swept aft steps. At high speeds, swept aft steps provide improved dynamic stability compared to other step designs without a resistance penalty when compared to unswept steps.
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