Joint-Industry Effort to Develop and Verify CFD Modeling Practice for Predicting Wave Impact

Csaba Pákozdi, Eloise Croonenborghs, Jang-Whan Kim, M. Peric, G. Ducrozet, B. Bouscasse, Haihua Xu, A. Califano, A. Akselsen, Sébastien Loubeyre
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Abstract

In 2020, a modeling practice was presented to perform numerical simulation of waves, where waves generated by a numerical wave tank (NWT) were used as input to a CFD simulation. This paper presents an extension of those practices in the context of wave impact on a gravity-based structure (GBS). It focuses on capturing accurate wave loads for a prescribed wave event, reproduced from a measured time series. This modeling practice serves the purpose that if it is followed by a CFD practitioner, the CFD results are reproducible. The modeling practice is validated for two regular wave cases and one irregular wave event. The validation data are based on experiments performed at MARINTEK in model scale 1:54 with the water depth 2.81m. During the validation the wave time series are compared against model test without and with GBS at scale 1:54. Further, relative wave height time series, global forces and moments acting on the deck as well as slamming forces are compared against model test records. The modeling practice is validated with Simcenter STAR-CCM+ as the main CFD solution but the modeling strategy can be applied to other CFD software. Thanks to the initialization of the CFD solution with user defined waves (UDW), the NWT-CFD coupling shows two advantages. First, the size of the CFD domain can be reduced to a minimum. Second, it is sufficient to start the CFD simulation shortly before the impact event.
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工业界联合努力开发和验证预测波浪冲击的CFD建模实践
在2020年,提出了一种模拟实践来进行波浪的数值模拟,其中使用数值波浪槽(NWT)产生的波浪作为CFD模拟的输入。本文在重力基结构(GBS)的波冲击背景下提出了这些实践的扩展。它的重点是捕获准确的波载荷为规定的波事件,从测量的时间序列再现。这个建模实践的目的是,如果CFD从业者遵循它,CFD结果是可重复的。模拟实践验证了两个规则波和一个不规则波事件。验证数据基于MARINTEK模型比例尺1:54、水深2.81m的实验。在验证过程中,将波浪时间序列与没有GBS的模型试验和1:54比例的GBS模型试验进行比较。此外,将相对波高时间序列、作用在甲板上的整体力和力矩以及撞击力与模型试验记录进行比较。以Simcenter STAR-CCM+为主要CFD解决方案的建模实践得到了验证,但该建模策略可以应用于其他CFD软件。由于使用用户自定义波(UDW)初始化CFD解决方案,NWT-CFD耦合显示出两个优势。首先,可以将CFD域的大小减小到最小。其次,在撞击事件发生前不久开始CFD模拟就足够了。
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