Leakage and diffusion characteristics of underground hydrogen pipeline

IF 4.2 Q2 ENERGY & FUELS Petroleum Pub Date : 2024-06-01 DOI:10.1016/j.petlm.2023.06.002
Wenkang Zhang, Guanghui Zhao
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Abstract

Soil corrosion and hydrogen embrittlement are the main factors of hydrogen pipeline failure. The gas escapes, diffuses and accumulates in the soil and enters the atmosphere when leak occurs. The mechanism of gas diffusion in buried pipelines is very complicated. Mastering the evolution law of hydrogen leakage diffusion is conducive to quickly locating the leakage point and reducing the loss. The leakage model of the underground hydrogen pipeline is established in this paper. The effect of leakage hole, soil type, pipeline pressure, pipeline diameter on hydrogen leakage diffusion were investigated. The results show that when the hydrogen pipeline leaks, the hydrogen concentration increases with the increase of leakage time, showing a symmetrical distribution trend. With the pipeline pressure increase, hydrogen leakage speed is accelerated, and longitudinal diffusion gradually becomes the dominant direction. As the leakage diameter increases, hydrogen leakage per unit of time increases sharply. Hydrogen diffuses more easily in sandy soil, and its diffusion speed, concentration, and range are higher than that in clay soil. The research content provides a reference and basis for the detection and evaluation of buried hydrogen pipeline leakage.

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地下氢气管道的泄漏和扩散特性
土壤腐蚀和氢脆是氢气管道失效的主要因素。发生泄漏时,气体会在土壤中逸出、扩散和积聚,并进入大气。气体在埋地管道中的扩散机理非常复杂。掌握氢气泄漏扩散的演变规律,有利于快速定位泄漏点,减少损失。本文建立了地下氢气管道的泄漏模型。研究了泄漏孔、土壤类型、管道压力、管道直径对氢气泄漏扩散的影响。结果表明,氢气管道泄漏时,氢气浓度随泄漏时间的增加而增加,呈对称分布趋势。随着管道压力的增加,氢气泄漏速度加快,纵向扩散逐渐成为主导方向。随着泄漏直径的增大,单位时间内的氢气泄漏量急剧增加。氢气在砂土中更容易扩散,其扩散速度、浓度和范围均高于粘土。研究内容为埋地氢气管道泄漏的检测和评估提供了参考和依据。
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来源期刊
Petroleum
Petroleum Earth and Planetary Sciences-Geology
CiteScore
9.20
自引率
0.00%
发文量
76
审稿时长
124 days
期刊介绍: Examples of appropriate topical areas that will be considered include the following: 1.comprehensive research on oil and gas reservoir (reservoir geology): -geological basis of oil and gas reservoirs -reservoir geochemistry -reservoir formation mechanism -reservoir identification methods and techniques 2.kinetics of oil and gas basins and analyses of potential oil and gas resources: -fine description factors of hydrocarbon accumulation -mechanism analysis on recovery and dynamic accumulation process -relationship between accumulation factors and the accumulation process -analysis of oil and gas potential resource 3.theories and methods for complex reservoir geophysical prospecting: -geophysical basis of deep geologic structures and background of hydrocarbon occurrence -geophysical prediction of deep and complex reservoirs -physical test analyses and numerical simulations of reservoir rocks -anisotropic medium seismic imaging theory and new technology for multiwave seismic exploration -o theories and methods for reservoir fluid geophysical identification and prediction 4.theories, methods, technology, and design for complex reservoir development: -reservoir percolation theory and application technology -field development theories and methods -theory and technology for enhancing recovery efficiency 5.working liquid for oil and gas wells and reservoir protection technology: -working chemicals and mechanics for oil and gas wells -reservoir protection technology 6.new techniques and technologies for oil and gas drilling and production: -under-balanced drilling/gas drilling -special-track well drilling -cementing and completion of oil and gas wells -engineering safety applications for oil and gas wells -new technology of fracture acidizing
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