Experimental and numerical investigation on destructive effect of gas pipeline buried in silty clay under surface explosion

IF 2.1 Q2 ENGINEERING, CIVIL International Journal of Protective Structures Pub Date : 2021-04-19 DOI:10.1177/20414196211009236

Qichen Tang, N. Jiang, Yingkang Yao, Chuan-bo Zhou, Tingyao Wu

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Abstract

Identifying the damage effects of buried multiple-operating-pressure gas pipelines subjected to various magnitude blasting load is a prerequisite for pipeline safety assessment. In this study, the dynamic response and damage effect are assessed by a combination of both field experiments and numerical simulation. It is indicated that the error between the numerical calculation and the field measured data is small and the reliability of the model is high. The dangerous section of the whole pipeline lies directly below the explosion source. The peak particle velocity (PPV) and the peak particle effective stress (PES) on the explosion-prone side of the section are the largest. Moreover, the PPV and PES increase with the increase of the working pressure of the pipeline. Results show that the empty pipe with no working pressure is the safest state among various pipe working state. There is a certain functional relationship among the explosive charge on the ground surface, working pressure, and PES of the pipeline.

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地面爆炸作用下粉质粘土输气管道破坏效果的实验与数值研究

识别埋地多压力天然气管道在不同大小爆破载荷作用下的损伤效应是进行管道安全评估的前提。在本研究中，通过现场实验和数值模拟相结合的方法评估了动力响应和损伤效应。结果表明，数值计算与现场实测数据误差小，模型可靠性高。整个管道的危险段位于爆炸源的正下方。截面易爆炸侧的峰值颗粒速度（PPV）和峰值颗粒有效应力（PES）最大。此外，PPV和PES随着管道工作压力的增加而增加。结果表明，在各种管道工作状态中，无工作压力的空管道是最安全的状态。地面装药、工作压力和管道PES之间存在一定的函数关系。

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来源期刊

International Journal of Protective Structures ENGINEERING, CIVIL-

CiteScore

4.30

自引率

25.00%

发文量