Hadi Mashhadban scite author profile

Pipelines are generally used to transmit energy sources from production sources to target places. Buried pipelines in saturated deposits during seismic loading could damage from resulting liquefaction due to accumulative excess pore-water pressure generation. In this paper, the evaluation of liquefaction potential in the vicinity of an offshore buried pipeline is studied using the control-volume-based finite element method. The objective of the present work is to study the effect of different governing parameters such as the specific weight of pipeline, Poisson's ratio, permeability of the soil, deformation module, pipeline diameter and pipeline burial depth on the soil liquefaction around a marine pipeline. The results of analysis indicated that with the increase of deformation module, Poisson's ratio and permeability of the soil coefficient, the liquefaction potential reduces. The liquefaction potential around the gas pipeline is much more than oil pipeline.

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Identification of soil properties based on accelerometer records and comparison with other methods

Mashhadban

Beitollahi²,

Kutanaei

2016

Arab J Geosci

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Evaluation of the seismic response of the slopes in the presence of the horseshoe tunnel

Mashhadban

Choobbasti

Shooshpasha

et al. 2020

Bull Eng Geol Environ

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Hadi Mashhadban

Prediction and modeling of mechanical properties in fiber reinforced self-compacting concrete using particle swarm optimization algorithm and artificial neural network

Control-volume-based finite element modelling of liquefaction around a pipeline

Identification of soil properties based on accelerometer records and comparison with other methods

Evaluation of the seismic response of the slopes in the presence of the horseshoe tunnel

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