Recent advances in combustion science related to hydrogen safety

IF 37 1区工程技术 Q1 ENERGY & FUELS

Progress in Energy and Combustion Science Pub Date : 2024-12-16 DOI:10.1016/j.pecs.2024.101202

Jennifer X. Wen , Ethan S. Hecht , Remy Mevel

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Abstract

Hydrogen is a key pillar in the global Net Zero strategy. Rapid scaling up of hydrogen production, transport, distribution and utilization is expected. This entails that hydrogen, which is traditionally an industrial gas, will come into proximity of populated urban areas and in some situations handled by the untrained public. To realize all their benefits, hydrogen and its technologies must be safely developed and deployed. The specific properties of hydrogen involving wide flammability range, low ignition energy and fast flame speed implies that any accidental release of hydrogen can be easily ignited. Comparing with conventional fuels, combustion systems fueled by hydrogen are also more prone to flame instability and abnormal combustion. This paper aims to provide a comprehensive review about combustion research related to hydrogen safety. It starts with a brief introduction which includes some overview about risk analysis, codes and standards. The core content covers ignition, fire, explosions and deflagration to detonation transition (DDT). Considering that DDT leads to detonation, and that detonation may also be induced directly under special circumstances, the subject of detonation is also included for completeness. The review covers laboratory, medium and large-scale experiments, as well as theoretical analysis and numerical simulation results. While highlights are provided at the end of each section, the paper closes with some concluding remarks highlighting the achievements and key knowledge gaps.

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与氢安全相关的燃烧科学新进展

氢是全球净零排放战略的关键支柱。预计氢的生产、运输、分配和利用将迅速扩大规模。这意味着传统上作为工业气体的氢气将进入人口稠密的城市地区附近，并且在某些情况下由未经培训的公众处理。为了实现所有这些好处，氢及其技术必须安全开发和部署。氢的可燃性范围大，点火能量低，火焰速度快，这意味着任何意外释放的氢都很容易被点燃。与传统燃料相比，氢燃料的燃烧系统也更容易出现火焰不稳定和异常燃烧。本文综述了与氢安全相关的燃烧研究进展。首先是一个简短的介绍，包括一些关于风险分析、规范和标准的概述。核心内容包括点火、火灾、爆炸和爆燃到爆轰过渡（DDT）。考虑到滴滴涕引起爆轰，而且在特殊情况下也可能直接诱发爆轰，为完整起见，还包括爆轰的主题。综述包括实验室实验、中、大规模实验、理论分析和数值模拟结果。虽然在每个部分的末尾都提供了重点，但本文以一些结束语结束，强调了取得的成就和关键的知识差距。

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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来源期刊

Progress in Energy and Combustion Science 工程技术-工程：化工

CiteScore

59.30

自引率

0.70%

发文量

审稿时长

3 months

期刊介绍： Progress in Energy and Combustion Science (PECS) publishes review articles covering all aspects of energy and combustion science. These articles offer a comprehensive, in-depth overview, evaluation, and discussion of specific topics. Given the importance of climate change and energy conservation, efficient combustion of fossil fuels and the development of sustainable energy systems are emphasized. Environmental protection requires limiting pollutants, including greenhouse gases, emitted from combustion and other energy-intensive systems. Additionally, combustion plays a vital role in process technology and materials science. PECS features articles authored by internationally recognized experts in combustion, flames, fuel science and technology, and sustainable energy solutions. Each volume includes specially commissioned review articles providing orderly and concise surveys and scientific discussions on various aspects of combustion and energy. While not overly lengthy, these articles allow authors to thoroughly and comprehensively explore their subjects. They serve as valuable resources for researchers seeking knowledge beyond their own fields and for students and engineers in government and industrial research seeking comprehensive reviews and practical solutions.