Numerical Simulation of Hydrodynamic Forces on a Submerged Floating Tunnel with Surface Roughness Subject to Wave Loading

P. Zou, N. Ruiter, Jeremy D. Bricker, W. S. Uijttewaal
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Abstract

Marine biofouling is a major concern in the operational performance of submerged floating tunnels (SFTs). The objective of this research is to extend hydrodynamic conditions in experiments and numerically investigate the effects of marine fouling on the hydrodynamic behavior of SFTs, including flow characteristics and forces on the SFT subject to waves. A sensitivity analysis of roughness parameters including different roughness heights and roughness coverage ratios is carried out. Additionally, the hydrodynamic forces of a roughened SFT with a circular shape and a newly designed parametric shape are compared.
表面粗糙的水下浮动隧道在波浪载荷作用下的水动力数值模拟
海洋生物污损是影响水下浮动隧道(SFT)运行性能的一个主要问题。本研究的目的是扩展实验中的水动力条件,并以数值方法研究海洋污损对 SFT 水动力行为的影响,包括 SFT 在波浪作用下的流动特性和受力。对不同粗糙度高度和粗糙度覆盖率等粗糙度参数进行了敏感性分析。此外,还比较了圆形粗化 SFT 和新设计的参数形状的流体动力。
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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