Το work with title An improved analytical approach for simulating the lateral kinematic distress of deepwater offshore pipelines by Chatzidakis Dionysios, Tsompanakis Ioannis, Psarropoulos Prodromos N. is licensed under Creative Commons Attribution 4.0 International
Bibliographic Citation
D. Chatzidakis, Y. Tsompanakis and P.N. Psarropoulos, "An improved analytical approach for simulating the lateral kinematic distress of deepwater offshore pipelines," Appl. Ocean Res., vol. 90, Sep. 2019. doi: 10.1016/j.apor.2019.101852
https://doi.org/10.1016/j.apor.2019.101852
Offshore pipelines are critical infrastructures and any possible damage may have devastating financial and environmental consequences. Earthquake-related geohazards (such as strong ground motion, active seismic faults, submarine landslides and debris flows) consist crucial threats that an offshore pipeline has to overcome. The main aim of the current study is to examine analytically a seabed-laid offshore pipeline subjected to a lateral kinematic distress due to a submarine landslide or a debris flow. Extra emphasis is given on the impact of pipe-soil interaction on the pipe response, by the realistic representation of the soil resistance via a tri-linear model. Firstly, the proposed analytical model is validated with a numerical model utilizing the finite-element method. Subsequently, various combinations of soil parameters and loading conditions that affect the examined problem are investigated with realistic input data taken from the offshore section of the high-pressure natural-gas pipeline TAP (Trans Adriatic Pipeline) in the Adriatic Sea. Finally, useful conclusions are drawn regarding the applicability and the efficiency of the proposed approach.