Numerical Simulation of Pipeline-Pavement Damage Caused by Explosion of Leakage Gas in Buried PE Pipelines
Joint Authors
He, Li
Zhuohua, Yang
Qing, Ye
Zhenzhen, Jia
Source
Issue
Vol. 2020, Issue 2020 (31 Dec. 2020), pp.1-18, 18 p.
Publisher
Hindawi Publishing Corporation
Publication Date
2020-09-15
Country of Publication
Egypt
No. of Pages
18
Main Subjects
Abstract EN
In order to investigate the damage influence of the leakage explosion in urban gas pipeline on the surrounding environment, the numerical models of buried PE (polyethylene) pipes under urban pavement were established by using ANSYS/LS-DYNA in this study.
The reliability of the numerical models was verified on the basis of the explosion experiments.
According to the amount of gas leakage, the TNT explosive equivalent was determined.
The gas leakage explosion process of buried PE pipes was studied, and the pressure and stress changes of pipes and pavements under different explosive equivalents and buried depths were analyzed; at last, the deformation law of pipes and pavements were discussed.
The results show that the PE pipes are fractured during the leakage explosion and a spherical explosion cavity is formed in the soil.
The pavement above the explosion point bulges upward and forms a circle.
The maximum pressure of pipe near the explosion point increases linearly with the increase of explosive equivalent, and a proportional relation is observed between the fracture width of pipe and the explosive equivalent.
The degree and duration of pavement deformation increase significantly with the increase of explosive equivalents.
The dynamic response of the pipes is rarely affected by the buried depth, and the change of maximum effective stress is no more than 7%.
However, the buried depth is of great influence on the damage degree of pavement.
When the buried depth increases from 0.9 m to 1.5 m, the pavement deformation can be reduced effectively.
The variation rule of pavement deformation is similar to the change rule of maximum overpressure and effective plastic stress; they change in the form of concave functions with the increase of buried depth.
The results can provide theoretical basis for municipal pipeline construction design and urban safety planning and provide references for the risk assessment of gas explosion in buried pipelines.
American Psychological Association (APA)
Zhuohua, Yang& Qing, Ye& Zhenzhen, Jia& He, Li. 2020. Numerical Simulation of Pipeline-Pavement Damage Caused by Explosion of Leakage Gas in Buried PE Pipelines. Advances in Civil Engineering،Vol. 2020, no. 2020, pp.1-18.
https://search.emarefa.net/detail/BIM-1121768
Modern Language Association (MLA)
Zhuohua, Yang…[et al.]. Numerical Simulation of Pipeline-Pavement Damage Caused by Explosion of Leakage Gas in Buried PE Pipelines. Advances in Civil Engineering No. 2020 (2020), pp.1-18.
https://search.emarefa.net/detail/BIM-1121768
American Medical Association (AMA)
Zhuohua, Yang& Qing, Ye& Zhenzhen, Jia& He, Li. Numerical Simulation of Pipeline-Pavement Damage Caused by Explosion of Leakage Gas in Buried PE Pipelines. Advances in Civil Engineering. 2020. Vol. 2020, no. 2020, pp.1-18.
https://search.emarefa.net/detail/BIM-1121768
Data Type
Journal Articles
Language
English
Notes
Includes bibliographical references
Record ID
BIM-1121768