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25 January 2021 Numerical Investigation of Wave-Induced Uplift Force Exerted onto a Shallowly Buried Pipeline Using a Two-Dimensional Fully Coupled Model for Wave-Seabed-Structure Interaction
Lunliang Duan, Lei Xing, Duoyin Wang, Meiling Fan, Pandi Wang
Author Affiliations +
Abstract

Duan, L.; Xing, L.; Wang, D.; Fan, M., and Wang, P., 2021. Numerical investigation of wave-induced uplift force exerted onto a shallowly buried pipeline using a two-dimensional fully coupled model for wave-seabed-structure interaction. Journal of Coastal Research, 37(4), 800–812. Coconut Creek (Florida), ISSN 0749-0208.

In this paper, a novel two-dimensional numerical model for wave-seabed-pipeline interaction is proposed to investigate the wave-induced uplift force exerted onto a shallowly buried pipeline. Unlike previous models, the present model is fully coupled, and the effects of fluid shear stress at the seabed surface on the soil dynamic response are considered. In this study, the Reynolds-averaged Navier-Stokes equation was applied to simulate flow motions, and the level set method was used to track the free water surface. Meanwhile, Biot's poroelastic equation (u-p mode) was taken to govern the wave-induced oscillatory response of the seabed, and the pipeline was treated as elastic. After validation using data from laboratory experiments in the literature, the novel model was first employed to investigate the distribution of the wave-induced transient seabed response around the shallowly buried pipeline. Then, the effects of the wave parameters, the soil properties, and the pipeline diameter and burial depth on the wave-induced maximum uplift force exerted onto the structure were systematically examined in detail. Finally, wave-induced maximum uplift of the shallowly buried pipeline was predicted based on the numerical results, which may provide some references for engineering practice. Numerical results confirmed that both the nonlinear pipeline-seabed contacts and the fluid shear stress at the seabed surface can greatly affect the soil dynamic response, which should be considered in determining the wave-induced uplift force exerted onto a shallowly buried pipeline.

©Coastal Education and Research Foundation, Inc. 2021
Lunliang Duan, Lei Xing, Duoyin Wang, Meiling Fan, and Pandi Wang "Numerical Investigation of Wave-Induced Uplift Force Exerted onto a Shallowly Buried Pipeline Using a Two-Dimensional Fully Coupled Model for Wave-Seabed-Structure Interaction," Journal of Coastal Research 37(4), 800-812, (25 January 2021). https://doi.org/10.2112/JCOASTRES-D-20-00120.1
Received: 23 August 2020; Accepted: 14 November 2020; Published: 25 January 2021
KEYWORDS
Biot
pipeline
Transient soil response
uplift force
WSPI
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