Abstract
Offshore pipelines are exposed to potential submarine landslides. It is difficult to measure the impact forces exerted on a pipeline induced by submarine landslides because the upper seabed is very soft and an impact angle exists in practice. Current laboratory experiments are limited on measuring the normal force exerted on pipeline by the slides. This article describes the feasibility and performance of a novel penetrometer, which is designed to measure impact forces of submarine landslides on offshore pipeline including both the normal and frictional forces from variable impact angle in centrifuge test, termed as the lateral resistance measurement penetrometer. The calibration procedure for this particular version is illustrated in detail and the reliability and feasibility of the lateral resistance measurement penetrometer are preliminarily confirmed by an experimental study. Pipe–soil interaction centrifuge tests were subsequently performed on a normally consolidated kaolin sample with 40 g level conducted in Dalian University of Technology drum centrifuge to investigate the effect of incident angles on the impact forces exerted by submarine landslides on a pipeline. The impact forces deduced from the lateral resistance measurement penetrometer are analysed in comparison with published results. The lateral resistance measurement penetrometer is a potentially valuable device to measure the interaction force between submarine landslides and offshore pipeline, cables and other subsea facilities in small-scale centrifuge models.
Highlights
Offshore pipelines that carry the hydrocarbon product to shore are exposed to impact risk by submarine landslides because of their length and varied terrain through which they must pass
The feasibility and performance of a novel device named lateral resistance measurement penetrometer (LRMP) are evaluated in this article, by means of both the conventional gravity test and centrifuge test in normally consolidated (NC) kaolin clay
In addition to being able to measure comparable net horizontal force and its associated moment arm with the conventional vertically oriented penetrometer (VOP) device, the LRMP as an improved version can be used to determine the incident impact angle generated from the soil resistance when simulating the slides–pipe interaction
Summary
Offshore pipelines that carry the hydrocarbon product to shore are exposed to impact risk by submarine landslides because of their length and varied terrain through which they must pass. Keywords Penetrator, submarine landslides, offshore pipeline, impact force, soil resistance, strain gauge
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