Progress in spontaneous ignition of hydrogen during high-pressure leakage with the considerations of pipeline storage and delivery

IF 5 Q2 ENERGY & FUELS
Xin-Yi Liu, Z.Y. Sun, Yao Yi
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引用次数: 0

Abstract

High-pressure pipeline storage presents a promising method for widespread and efficient hydrogen transfer. However, challenges arise in mitigating pressurized hydrogen leakage due to hydrogen embrittlement issues associated with conventional pipeline materials. Experimental findings indicate that pressurized hydrogen is prone to spontaneous combustion, even at relief pressures as low as approximately 2 MPa - well below the permissible pipeline pressure in most countries. Despite this, there remains a lack of consensus regarding the mechanism of spontaneous ignition from high-pressure hydrogen leakage, and current research in this area is deemed insufficient. This study aims to analyze and discuss the presumed mechanisms of spontaneous ignition comparatively, review the progress in the study of spontaneous ignition of hydrogen in high-pressure leakage based on diffusion ignition theory, and statistically compare and discuss the influences of significant factors existing in pipelines (e.g., macro size factors and internal structure) and/or pipe failures (e.g., rupture factors) on spontaneous ignition. It is hoped that this article will provide scholars involved in the development of hydrogen energy and the theories of spontaneous combustion with a systematic understanding of these phenomena.
高压泄漏过程中氢气自燃的研究进展以及对管道储存和输送的考虑
高压管道储氢为广泛、高效地输送氢气提供了一种前景广阔的方法。然而,由于传统管道材料存在氢脆问题,在减少加压氢泄漏方面面临挑战。实验结果表明,加压氢容易发生自燃,即使泄压压力低至约 2 兆帕--远低于大多数国家允许的管道压力。尽管如此,人们对高压氢气泄漏自燃的机理仍然缺乏共识,认为目前在这一领域的研究还不够充分。本研究旨在对假定的自燃机制进行比较分析和讨论,回顾基于扩散点火理论的高压泄漏氢气自燃研究进展,并对管道中存在的重要因素(如宏观尺寸因素和内部结构)和/或管道故障(如破裂因素)对自燃的影响进行统计比较和讨论。希望这篇文章能让从事氢能开发和自燃理论研究的学者对这些现象有一个系统的了解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
4.20
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