RANS study of surface roughness effects on ship resistance

Journal of Nonlinear, Complex and Data Science Pub Date : 2024-06-17 DOI:10.1515/jncds-2024-0009

Zainab Ali, Gabriella Bognár

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Abstract

Abstract In marine engineering, optimizing the performance of vessels is a key issue, particularly in increasing fuel efficiency, reducing operating costs, and minimizing environmental impact. One of the most critical determinants of vessel efficiency is hull resistance, which directly affects fuel consumption, power requirements, and cruising speed. We aim to investigate how surface roughness affects hull flow resistance, to quantify the drag variation at different surface roughness levels using special wall functions that reproduce boundary layer dynamics. This approach involves the complex interaction between the intricate complexity of roughness and the nonlinear pressure drag effects on the hull. The KVLCC2 ship model is used as a representative prototype in the CFD analysis based on the RANS equations and the k-omega SST model to independently evaluate the roughness effects on individual ship sections. The comparative analysis with empirical data reveals the complex relationship between surface roughness and ship resistance and provides insights for ship design and operational improvement. The study investigates the interaction between drag coefficient and vessel performance to improve hydrodynamic efficiency.

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表面粗糙度对船舶阻力影响的 RANS 研究

摘要在海洋工程中，优化船舶性能是一个关键问题，尤其是在提高燃油效率、降低运营成本和减少环境影响方面。船体阻力是决定船舶效率的最关键因素之一，它直接影响燃料消耗、动力需求和巡航速度。我们的目标是研究表面粗糙度如何影响船体流动阻力，并利用再现边界层动力学的特殊壁面函数量化不同表面粗糙度水平下的阻力变化。这种方法涉及粗糙度的复杂性与船体上的非线性压力阻力效应之间复杂的相互作用。在基于 RANS 方程和 k-omega SST 模型的 CFD 分析中，以 KVLCC2 船舶模型为代表原型，独立评估粗糙度对单个船体截面的影响。与经验数据的对比分析揭示了表面粗糙度与船舶阻力之间的复杂关系，为船舶设计和运行改进提供了启示。该研究探讨了阻力系数与船舶性能之间的相互作用，以提高水动力效率。

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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Journal of Nonlinear, Complex and Data Science

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