NUMERICAL ANALYSIS OF MODIFIED ANGLE OF ENTRANCE AND DUCKTAIL ADDITION OF THE 1,500 GT RO-RO FERRY HULL VALIDATED WITH SHIP MODEL RESISTANCE TEST

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

Jurnal Teknologi-Sciences & Engineering Pub Date : 2023-08-21 DOI:10.11113/jurnalteknologi.v85.19576

C. S. J. Mintarso, S. Semin, Erwandi Erwandi, D. Purnamasari

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Abstract

The main problem of ferry ships is maintaining the speed due to ship resistance. There are many efforts to reduce the resistance by modifications of them. This study aims to reduce resistance due to modification of the hull form on the bow Angle of Entrance (AoE) and ducktail addition at the transom stern. The object of the research is a 1,500 GT ro-ro ferry. The AoE minimizes wave resistance and improves flow patterns, while the ducktail reduces the negative effects of the circulation zone on the wetted transom so that waves and wake are reduced. Computational Fluid Dynamics (CFD) was used to analyze these modifications. The final results of the numerical simulation are then verified by the ship model resistance test in the towing tank. Tests were conducted in calm water conditions at a draft of 3.30 meters with a speed variation of 10 - 18 knots. The results show that with the combination of AoE and Ducktail, at ship speeds of 13 to 18 knots, the reduction in resistance from CFD ranges from 13.13% - 16.69% while the experimental results range from 16.00% - 16.54%. While separately the AoE modification is between 8.89% – 12.19% and ducktail is 3.12% -3,62%.

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船模阻力试验验证1500gtro-RO船壳改进的入角和添加鸭尾的数值分析

渡船的主要问题是由于船舶阻力而保持速度。有许多努力通过对它们的修改来减少阻力。本研究旨在减少由于船体形状对船头入射角（AoE）的修改和在横尾添加鸭尾而产生的阻力。研究对象是一艘1500 GT的滚装渡轮。AoE最大限度地减少了波浪阻力并改善了流态，而鸭尾则减少了循环区对湿横框的负面影响，从而减少了波浪和尾流。使用计算流体动力学（CFD）来分析这些修改。数值模拟的最终结果通过在拖曳舱中进行的船模阻力试验进行了验证。试验是在平静的水域条件下进行的，吃水深度为3.30米，速度变化为10-18节。结果表明，在13至18节的船速下，AoE和Ducktail组合后，CFD阻力的减小范围为13.13%-16.69%，实验结果为16.00%-16.54%。

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

Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

1.30

自引率

0.00%

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