Recent Progress on the Transparent Prediction of the Added Resistance and Powering of a Ship in Waves

Day 2 Wed, March 08, 2023 Pub Date : 2023-03-07 DOI:10.5957/some-2023-031

Shukui Liu, A. Papanikolaou

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Abstract

Recent developments of international regulations on the energy-efficiency and safety of ships and their impact on marine operations and on the environment are driving the ship design and operation to new frontiers. In this context, the accurate prediction of the added resistance of a ship in seaways became a research subject of priority. Considerable effort was devoted by global researchers to the development of new methods to meet the urgent demand of the industry. Among these new methods, the SHOPERA-NTUA-NTU-MARIC (SNNM) method (Liu & Papanikolaou, 2020) was validated by the 29th ITTC Specialist Committee on Ships in Operation at Sea with satisfactory results, demonstrating a broader applicability and higher accuracy than other comparable methods (Wang et al., 2021). Thereafter, it was adopted in the ITTC recommended procedures for analyzing sea trial results and the IMO guidelines for the determination of the minimum propulsive power in adverse condition. In addition to highlighting the features of the SNNM method, this paper will discuss the challenges in improving the method and recent progresses. A new form of empirical diagrams is presented for practical uses.

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波浪中船舶附加阻力和动力透明预测研究进展

关于船舶能源效率和安全的国际条例的最新发展及其对海上作业和环境的影响正在推动船舶设计和操作进入新的领域。在此背景下，船舶在航道中附加阻力的准确预测成为一个重要的研究课题。全球研究人员为开发新方法以满足该行业的迫切需求付出了相当大的努力。在这些新方法中，SHOPERA-NTUA-NTU-MARIC (SNNM)方法(Liu & Papanikolaou, 2020)得到了第29届ITTC海上作业船舶专家委员会的验证，结果令人满意，比其他可比方法具有更广泛的适用性和更高的准确性(Wang et al.， 2021)。此后，国际海事委员会通过了分析海上试验结果的建议程序和海事组织关于确定不利条件下最小推进功率的准则。除了突出SNNM方法的特点外，本文还将讨论改进该方法的挑战和最新进展。提出了一种可供实际使用的新形式的经验图。

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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Day 2 Wed, March 08, 2023

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