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      저자 : Kanmin Shen (검색결과 1 건)
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        Thermo-mechanical Behaviour of Soft Clay between Operation and Shutdown of Submarine Hot Oil Pipeline

        Kuanjun Wang,Hongwei Li,Kanmin Shen,Zhigang Shan,Weida Ni,Liuyuan Zhao,Hongyu Wang 대한토목학회 2023 KSCE Journal of Civil Engineering Vol.27 No.6

        The interaction between the pipeline and the surrounding soil is a critical factor in thebuckling analysis of the pipeline operating at high temperatures and pressures. The heatingpipeline alters the temperature and induces excess pore pressure in the surrounding soil,which in turn affects the mechanical properties of the soil. Therefore, a comprehensiveunderstanding of the thermo-mechanical response of the soil surrounding the pipeline duringoperation and shutdown is essential. To address this issue, this study developed a temperaturecontrolledpipe model test device that simulates the heating and cooling cycle of the pipe andthe temperature field and pore pressure response of the surrounding kaolin clay. The testresults showed that the soil temperature at the closest location to the pipe (0.1D) reached apeak value of approximately 48.7°C when the pipe was heated from 12.5°C to 55°C. Thepeak temperature decreased with increasing distance, reaching 22.5°C at 0.875D. Heattransfer analysis using ABAQUS software revealed that the influence range of the pipeline onthe soil temperature field during the heating cycle was about 2D. Additionally, a parametricstudy focused on the thermal conductivity (λsoil) of kaolin, and the best-fit value wasdetermined to be 0.6 W/(m·°C). The excess pore pressures were generated in the kaolinsurrounding the pipes during the heating cycle, and negative pore pressures were observedafter cooling cycle. Furthermore, a theoretical solution for calculating the thermally inducedpore pressure was derived, and preliminary verification showed good agreement between thetheoretically computed and experimentally measured results. These findings provide valuableinsights into the thermo-mechanical response of the soil surrounding pipelines duringoperation and shutdown, which can improve the design and safety of oil and gas pipelines.

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