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The Progress of Autoignition of High-Pressure Hydrogen Gas Leakage: A Comprehensive Review

Abstract

As a paradigm of clean energy, hydrogen is gradually attracting global attention. However, its unique characteristics of leakage and autoignition pose significant challenges to the development of high-pressure hydrogen storage technologies. In recent years, numerous scholars have made significant progress in the field of high-pressure hydrogen leakage autoignition. This paper, based on diffusion ignition theory, thoroughly explores the mechanism of high-pressure hydrogen leakage autoignition. It reviews the effects of various factors such as gas properties, burst disc rupture conditions, tube geometric structure, obstacles, etc., on shock wave growth patterns and autoignition characteristics. Additionally, the development of internal flames and propagation characteristics of external flames after ignition kernels generation are summarized. Finally, to promote future development in the field of high-pressure hydrogen energy storage and transportation, this paper identifies deficiencies in the current research and proposes key directions for future research.

Funding source: This work is supported by Shandong Provincial Natural Science Foundation of China (ZR2023ME088), National Natural Science Foundation of China (Grant No. 51804329).
Related subjects: Safety
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/content/journal6073
2024-08-02
2024-12-22
/content/journal6073
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