报告详情
Accidents and consequences modelling for stationary and mobile hydrogen storage
编号:378
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更新:2024-05-18 11:29:20
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口头报告
报告开始:2024年05月31日 17:10(Asia/Shanghai)
报告时间:20min
所在会场:[S5] Smart Energy and Clean Power Technology [S5-2] Afternoon of May 31st
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摘要
| The transportation sector heavily relies on fossil-based fuels, contributing significantly to the escalating concentration of pollutants and greenhouse gases in the atmosphere. Hydrogen emerges as a promising and clean energy carrier to address such environmental challenges and the increasing energy demand. Unlike fossil fuels, hydrogen offers a cleaner transportation option due to its unique characteristics, including high energy density, a substantial calorific value, cost-effectiveness, and diverse production methods. With these attributes, hydrogen has the potential to serve as a viable and eco-friendly substitute, capable of entirely replacing fossil fuels in internal combustion engines. However, hydrogen storage and transport are significant challenges because the hydrogen characteristics limit the technology options. This study presents the consequence modelling of hydrogen release and explosion using ALOHA and HyRAM+ software. The hydrogen release and explosion are modelled in stationary and mobile modes. ALOHA illustrated the release rate, burn rate, toxic threat zone, flammable threat zone, thermal radiation threat zone and overpressure threat zone. HyRAM software models a jet flame temperature, trajectory, heat flux, and overpressure. The three most dangerous scenarios were hydrogen leaking without burning for refuelling gas station, BLEVE for hydrogen production storage and liquid hydrogen trailer. The safe area to locate hydrogen storage away from residential areas is 274m for refuelling gas station, 757 m for hydrogen production storage and liquid hydrogen trailer. The hydrogen-powered vehicle has the most minor threat zone as their tank volume is only 62.4 L, and the release of hazardous chemicals into the environment is the least. BLEVE threat zone, where the most significant effect distance was transferred to Google Earth. There may be severe exposures and domino effects on the people around. For hydrogen production, the radius of the overpressure area is more than 140 m, which is affected by the delayed ignition of the leaking gaseous hydrogen over 5 kPa. This area's radius is approximately 40 m of the region affected by overpressure higher than 16 kPa, which has risks of structure collapse, possible fatality by being projected against obstacles, and skin lacerations by missiles. The findings have contributed to the understanding and managing of accidents and consequences in hydrogen storage systems, enhancing the safety and sustainability of this emerging technology. |
关键词
Hydrogen storage; Accidents modelling; Consequences quantification; Safe area; Risk assessment
报告人
Norazahar Norafneeza
Universiti Teknologi Malaysia全部评论
重要日期
-
会议日期
05月29日
2024
至06月01日
2024
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05月08日 2024
初稿截稿日期
主办单位
中国矿业大学
历届会议
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2022年05月26日 中国 徐州市
第九届能源、资源、环境与可持续发展国际会议 -
2019年05月31日 中国 Xuzhou
能源、资源、环境与可持续发展国际会议
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