Finite element modelling for water waves-soil interaction |
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Authors: | Dong-Sheng Jeng Yee Shown Lin |
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Institution: | Department of Environmental Engineering, The University of Western Australia, Nedlands, WA 6907, Australia;Department of Civil Engineering, National Chung-Hsing University, Taichung, Taiwan, 40227, Republic of China |
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Abstract: | The soil permeability and shear modulus of many marine sediments vary with depth because of consolidation under overburden pressure. However, conventional theories for wave-induced soil response have assumed a homogeneous porous seabed, with constant soil permeability and shear modulus. This paper presents a finite element model for the wave-induced soil response in a porous seabed, with variable permeability and shear modulus as a function of burial depth. The soil matrix considered here is unsaturated and hydraulically anisotropic, and subjected to a three-dimensional short-crested wave system. The present finite element formulation is established by using a combination of semi-analytical techniques and the Galerkin method. The nodal effective stresses directly derived from the governing equations can be calculated accurately in the present model. Verification is available through the reduction to the simple case of homogeneous seabed. Three typical marine materials, course, fine sand and gravel, are considered in this study. The numerical results indicate that the soil permeability affects the wave-induced seabed response significantly especially for gravelled seabed, as does the soil shear modulus for sandy seabed. |
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Keywords: | short-crested wave permeability shear modulus finite element model soil response |
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