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Upper-bound solutions for inclined capacity of suction caissons in a trenched seabed

Liqiang Sun, Yurong Zhang, Xiaowei Feng, Susan Gourvenec, Sa Li

2022Géotechnique17 citationsDOI

Abstract

Large seabed trenches have recently been found adjacent to suction caissons with taut and semi-taut moorings. Seabed trenching leads to loss of soil support and additional caisson rotation, and can therefore significantly decrease geotechnical capacity. In this paper, upper-bound solutions are presented that enable calculation of the reduction in ultimate load-carrying capacity of a suction caisson in a trenched seabed compared to optimal capacity in an intact seabed. Failure mechanisms for caissons embedded in an intact seabed are augmented to incorporate a kinematically admissible mechanism for a trench extending from the mudline. The rate of work dissipation is calculated to determine the optimised solution of the inclined capacity of suction caissons. Comparisons of the results of the upper-bound solutions with finite-element analyses show that the failure mechanisms and the calculated load-carrying capacities derived from the two methods agree well. Therefore, the analytical upper-bound method presented in this paper can be employed for efficient routine calculations of suction caisson capacity under inclined load considering seabed trenches, which are increasingly encountered in engineering practice.

Topics & Concepts

CaissonSeabedGeotechnical engineeringSuctionTrenchUpper and lower boundsGeologyOffshore geotechnical engineeringBearing capacityEngineeringMaterials scienceMathematicsOceanographyComposite materialLayer (electronics)Mathematical analysisMechanical engineeringGeotechnical Engineering and Soil MechanicsGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Soil Stabilization
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