期刊
OCEAN ENGINEERING
卷 255, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.oceaneng.2022.111421
关键词
Tripod support pile foundation; Wave-seabed-structure interaction (WSSI); RANS equations; Biot's equations; Wave-induced seabed response
资金
- Key Project of NSFC-Shangdong Joint Research Funding POW3C [U1906230]
- National Natural Science Foundation of China [51920105013]
- national key research and development program of China [2017YFC1404200]
Investigation and analysis of wave-seabed-structure interaction is crucial in marine engineering design and construction. This study establishes an integrated numerical model to simulate the wave-induced oscillatory seabed response around offshore substructure foundations. The model is validated through comparison with previous experimental data, demonstrating its reliability. Results show that liquefaction depth tends to be larger in the offshore and lateral areas of the upstream axillary pile leg.
Investigation analysis of wave-seabed-structure interaction (WSSI) is a pre-requisite in every marine engineering design and construction due to the huge failure of offshore structures every year, resulting in financial losses. In this study, an integrated 3-D numerical model is established to investigate the wave-induced oscillatory seabed response around the offshore substructure foundation of the tripod support pile. In the integrated numerical model, the Reynolds-Average Navier-Stokes (RANS) equations with k - epsilon turbulence closure model for the mean fluid flow is applied as the governed equation for the fluid computation, while the Biot consolidation equations are applied as the governing equation for the porous seabed substructure foundation model. The integrated numerical model is validated against physical experimental data from other previous works; to demonstrate that the present numerical model has the capability and capacity of simulating the WSSI around the offshore tripod pile structure foundation, which indicated good results. The results from the wave-induced liquefaction around the tripod support pile show that liquefaction depth at the offshore area and the lateral area of the upstream axillary pile leg tends to be larger than the two axillary pile legs at the lee area.
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