The Dimple Effect on Flettner Rotors for the Wind Power Drive System of a Sailing Merchant Ship

Q2 Mathematics

CFD Letters Pub Date : 2023-11-30 DOI:10.37934/cfdl.16.2.7690

aries sulisetyono, Aditya Bagaskara

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Abstract

Wind-powered ship propulsion is investigated in relation to reducing ship exhaust emissions, such as the application of Flettner rotor systems. How to increase rotor thrust's contribution to ship speed is an intriguing research question. This paper investigates the influence of dimples on the surface of a Flettner rotor on its ability to generate thrust for a ship. The CFD code, which includes the Reynolds average Navier-Stokes equation and the k-ω model for turbulent flow, is utilized to analyse three rotor designs: one with a smooth surface and two with dimple surfaces of varying diameters. Lift and drag are computed by taking into account varying spin ratios and the incoming wind angle. The CFD results are validated by comparing them to experimental data gathered in a wind tunnel and determining that their error is less than 5%. The addition of dimpled surfaces to the rotor increases lift by 69.6% and decreases drag by 14.8% due to the smooth surface. For the case study, the two rotors are mounted on the sailing ship 900 DWT and can generate the most thrust to give the ship a speed of 8.5 knots with a spin ratio of 4 and apparent wind angles of 90o or 270o relative to its speed.

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风帆商船风能驱动系统 Flettner 转子上的凹痕效应

风力船舶推进的研究与减少船舶废气排放有关，例如 Flettner 转子系统的应用。如何增加转子推力对船速的贡献是一个有趣的研究问题。本文研究了 Flettner 转子表面凹痕对其产生船舶推力能力的影响。CFD 代码包括雷诺平均纳维-斯托克斯方程和湍流 k-ω 模型，用于分析三种转子设计：一种是光滑表面，另两种是不同直径的凹痕表面。计算升力和阻力时考虑到了不同的旋转比和入风角度。通过将 CFD 结果与风洞中收集的实验数据进行比较，确定其误差小于 5%，从而对 CFD 结果进行了验证。由于表面光滑，在转子上增加凹面可使升力增加 69.6%，阻力减少 14.8%。在案例研究中，两个转子安装在 900 载重吨的帆船上，可产生最大推力，使船的速度达到 8.5 节，旋转比为 4，视风向角为 90 度或 270 度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

CFD Letters Chemical Engineering-Fluid Flow and Transfer Processes

CiteScore

3.40

自引率

0.00%

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