Experimental and numerical assessment of vertical accelerations during bow re-entry of a RIB in irregular waves

IF 0.6 Q4 ENGINEERING, MARINE
M. Eijk, P. Wellens
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引用次数: 1

Abstract

This paper presents the comparison of a self-conducted towing tank experiment with the simulation results of a calibrated state-of-the-art strip-theory method and a first-principles numerical method. The experiment concerns a Rigid Inflatable Boat (RIB) in moderate-to-high irregular waves. These waves result in bow emersion events of the RIB. Bow re-entry induces vertical accelerations which, in reality, can lead to severe injuries and structural damage. State-of-the-art methods for predicting the vertical acceleration levels are based on assumptions, require calibration and are often limited in application range. We demonstrate how the vertical acceleration as a function of time is found from a 3D numerical method based on the Navier–Stokes equations, employing the Volume of Fluid (VoF) method for the free surface, without any further assumptions or limitations. 2D+t strip theory methods like Fastship are based on the mechanics of wedges falling in water. The 3D numerical method that is part of the software ComFLOW is compared to previous research on falling wedges in 2D to investigate the effect of air and to find suitable grid distances for the 3D simulation of the RIB. The 3D RIB simulations are compared to Fastship and the experiment. With respect to the experiment, the ComFLOW simulations show a slight underestimation of the levels of heave and pitch. The underestimation of Fastship is larger. The prediction of acceleration in ComFLOW is hardly different from the experiment and a significant improvement with respect to Fastship. ComFLOW is demonstrated to predict acceleration levels better than before, which creates opportunities for using it in seakeeping optimization and for the improvement of methods like Fastship. The properties of the RIB and the experiment are available as open data at Wellens (2020).
RIB在不规则波中返回船头时垂直加速度的实验和数值评估
本文将自行进行的拖曳舱实验与校准的最先进条带理论方法和第一性原理数值方法的模拟结果进行了比较。该实验涉及在中高不规则波浪中的刚性充气船(RIB)。这些波浪会导致RIB的船头突出事件。船头再入会导致垂直加速度,而实际上,垂直加速度会导致严重的伤害和结构损坏。预测垂直加速度水平的现有技术方法是基于假设的,需要校准,并且应用范围往往有限。我们展示了如何在没有任何进一步假设或限制的情况下,通过基于Navier–Stokes方程的三维数值方法,使用自由表面的流体体积(VoF)方法,找到作为时间函数的垂直加速度。像Fastship这样的2D+t条形理论方法是基于楔形物落入水中的力学。作为软件ComFLOW的一部分的3D数值方法与之前在2D中对下落楔的研究进行了比较,以研究空气的影响,并为RIB的3D模拟找到合适的网格距离。将3D RIB模拟与Fastship和实验进行了比较。关于实验,ComFLOW模拟显示了对升沉和俯仰水平的轻微低估。对Fastship的低估更大。ComFLOW中的加速度预测与实验几乎没有什么不同,并且相对于Fastship有了显著的改进。ComFLOW被证明可以比以前更好地预测加速度水平,这为在适航性优化和Fastship等方法的改进中使用它创造了机会。RIB和实验的性质可作为Wellens(2020)的开放数据获得。
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
CiteScore
2.60
自引率
0.00%
发文量
8
期刊介绍: The journal International Shipbuilding Progress was founded in 1954. Each year four issues appear (in April, July, September and December). Publications submitted to ISP should describe scientific work of high international standards, advancing subjects related to the field of Marine Technology, such as: conceptual design structural design hydromechanics and dynamics maritime engineering production of all types of ships production of all other objects intended for marine use shipping science and all directly related subjects offshore engineering in relation to the marine environment ocean engineering subjects in relation to the marine environment
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