Journal article
Embedment depth and uplift capacity of a cryogenic pipeline dynamically laid in a trench
MS Hossain, YH Kim, MJ Cassidy, Y Tian, H An, YT Kim, KT Bae
Ocean Engineering | Published : 2022
Abstract
A cryogenic pipeline is a pipe-in-pipe with larger outer diameter, and is heavier and stiffer, compared to conventional deepwater steel flowlines or export pipelines. Cryogenic pipelines are being considered to be placed on shallow water sandy seabeds for transporting liquefied natural gas to shore. This paper reports a series of centrifuge tests to assess the as-laid embedment of a cryogenic pipeline during the dynamic laying process, and the uplift capacity of a trench-laid pipeline. Two seabed conditions were tested – a pipe laid onto the base of a trench and a flat silica sand deposit. A total of 12 dynamic pipe laying tests were conducted varying vertical force and pipe oscillation ampl..
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Awarded by Australian Research Council
Funding Acknowledgements
The research presented here was undertaken with support from the Australian Research Council (ARC) and Daewoo Engineering and Construction Co. Ltd., Korea through the Linkage Project LP170101080. The first author is an ARC Future Fellow and is supported by the ARC Project FT190100735. The work forms part of the activities of Centre for Offshore Foundation Systems (COFS). This support is gratefully acknowledged, as is the assistance of the centrifuge technicians, Manuel Palacios, Jason Stubbs and PhD student Mr. Senthen Mani.