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基于离散元法的松散泥沙与埋置光缆力学耦合特性研究

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论文题目


 

Insight into the mechanical coupling behavior of loose sediment and embedded fiber-optic cable using discrete element method


Kai Gu 1,2,3,*, Fulin Xiang 1, Chun Liu 1,3, Bin Shi 1,3, Xing Zheng 1
1 School of Earth Sciences and Engineering, Nanjing University, Nanjing 210023, China;
2 Frontiers Science Center for Critical Earth Material Cycling, Nanjing University, Nanjing     210023, China;
3 Key Laboratory of Earth Fissures Geological Disaster, Ministry of Natural Resources,            Nanjing University, Nanjing 210023, China;

 

研究内容

Abstract: Distributed fiber optic sensing (DFOS) has recently emerged as a novel sensing technology for obtaining spatially continuous deformation of loose sediment. During the measurement, the mechanical coupling between the sediment and embedded fiber optic cable determines the accuracy of the results. However, it remains a major challenge to properly assess such coupling behavior in both laboratory and in-situ tests. To investigate the pullout characteristics of a fiber-optic cable embedded in loose sediment, we established a two-dimensional model consisting of 205,909 active elements using high-performance discrete element numerical simulation software (MatDEM). We found that the simulations using the discrete element method well reproduced the pullout behaviors of fiber-optic cable embedded in soil, and this was verified by the experiment. In particular, the simulations obtained the interfacial shear stress distributions along the cable-sediment interface and the energy conversion processes, which were both determined by the confining pressures. The results revealed that the slip depth (Ls) can better indicate the cable-soil coupling capability than the strain propagation length (Lε). Accordingly, we suggested two evaluation methods for the mechanical coupling of cable and sediment, one employing Ls obtained by the simulations and the other employing the effective critical strain (εcr) obtained from the actual measurements. The discrete element method filled the gaps in understanding the mechanical coupling of the sediment and the embedded fiber-optic cable and it can be a useful tool for evaluating the cable-sediment coupling behaviors.


Keywords: Distributed fiber optic sensing; Loose sediment; Mechanical coupling; Discrete element method; MatDEM

FIGURE 2  The setup of pullout test in experiment
and discrete element numerical simulation.

FIGURE 3  Pullout behaviors of embedded FO cable at varying confining pressures.

FIGURE 4  Deformation characteristics of FO cable
and soil under different confining pressures.

FIGURE 9  Variation of axial strain of cable with time and the change of criterion for evaluating the coupling between soil and cable with the increasing PD.

了解详情


 
Kai Gu, Fulin Xiang, Chun Liu, Bin Shi, Xing Zheng,Insight into the mechanical coupling behavior of loose sediment and embedded fiber-optic cable using discrete element method,Engineering Geology,Volume 312,2023,106948,ISSN 0013-7952,

来源:矩阵离散元MatDEM
ACTMechanicalDeformUGUM离散元
著作权归作者所有,欢迎分享,未经许可,不得转载
首次发布时间:2023-12-30
最近编辑:10月前
MatDEM
中国自己的工程数值计算软件
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