Two-Dimensional Numerical Study of Seabed Response around a Buried Pipeline under Wave and Current Loading

Cynthia Su Xin Foo; Chencong Liao; Jinjian Chen

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Two-Dimensional Numerical Study of Seabed Response around a Buried Pipeline under Wave and Current Loading

机译：波浪和电流作用下埋地管道周围海床响应的二维数值研究

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The evaluation of the wave-induced seabed response around a buried pipeline has been widely studied. However, the analysis of seabed response around marine structures under the wave and current loadings are still limited. In this paper, an integrated numerical model is proposed to examine the wave and current-induced pore pressure generation, for instance, oscillatory and residual pore pressure, around a buried pipeline. The present wave–current model is based on the Reynolds-Averaged Navier–Stokes (RANS) equation with k - ε turbulence while Biot’s equation is adopted to govern the seabed model. Based on this numerical model, it is found that wave characteristics (i.e., wave period), current velocity and seabed characteristics such as soil permeability, relative density, and shear modulus have a significant effect on the generation of pore pressure around the buried pipeline.

机译：地下管道周围波浪引起的海床响应的评估已被广泛研究。然而，在波浪和潮流载荷作用下，海洋结构周围海床响应的分析仍然有限。在本文中，提出了一个集成的数值模型来研究波浪和电流引起的孔隙压力的产生，例如，地下管道周围的振动和残余孔隙压力。目前的波流模型是基于具有k-ε湍流的雷诺平均Navier-Stokes（RANS）方程，而采用Biot方程来控制海床模型。基于该数值模型，发现波浪特征（即波浪周期），流速和海床特征（例如土壤渗透率，相对密度和剪切模量）对埋地管道周围的孔隙压力的产生有显着影响。

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《Journal of Marine Science and Engineering》 |2019年第3期|共15页
作者
Cynthia Su Xin Foo; Chencong Liao; Jinjian Chen;
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中图分类海洋学;
关键词
wave–current–seabed interactioncurrent velocityReynolds-Averaged Navier-Stokesequationsburied pipelinek - ε turbulence model;

机译：波浪-海床-海床相互作用流速Reynolds-平均Navier-Stokes方程组埋藏管道k-ε湍流模型;

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1. Numerical study on the interaction between non-linear wave, buried pipeline and non-homogenous porous seabed [J] . F.P. Gao, D.S. Jeng, H. Sekiguchi Computers and Geotechnics . 2003,第6期

机译：非线性波浪与地下管道与非均质多孔海床相互作用的数值研究
2. Dynamic response of pipelines in liquefiable seabed under nature loadings: Waves and currents [J] . Zhao Kai, Wang Qiuzhe, Chen Su, Ocean Engineering . 2021,第Juna15期

机译：自然装载下液化海底管道管道的动态响应：波浪和电流
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机译：考虑非线性波浪和水流相互作用的海上管道周围饱和多孔海床响应数值模型
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机译：组合波海浪响应和电流载荷的数值模拟
5. Numerical analysis and evaluation of buried pipeline response to earthquake-induced ground fault rupture. [D] . Xie, Xiaojian. 2008

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6. On the scattering of torsional waves from axisymmetric defects in buried pipelines [O] . Wenbo Duan, Ray Kirby, Peter Mudge -1

机译：地下管道中轴对称缺陷引起的扭波的散射
7. Numerical study of scour depth effect on wave-induced seabed response and liquefaction around a pipeline [O] . Hui Li, Shuqing Wang, Xuguang Chen, 2019

机译：浅层深度影响对波引起的海底反应和管道液化的数值研究
8. Two-Dimensional Study of the Influence on Target Loading of Numerical Wave Reflections from Transmissive Computational Boundaries [R] . Lottero, R. E., Wortman, J. D. 1986

机译：透射计算边界对数值波反射目标载荷影响的二维研究

Two-Dimensional Numerical Study of Seabed Response around a Buried Pipeline under Wave and Current Loading

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