Fire Spread Sceanrios Involving Hydrogen Vehicles

W. Liu, F. Riba Clascà, F. Markert*, L. Giuliani

*Corresponding author for this work

Research output: Contribution to conferencePaperResearchpeer-review

Abstract

Fire spread between vehicles provide a potential risk in parking areas with many vehicles. A number of reported very large fires caused the loss of a great number of vehicles. This is in contradiction to the European design rules for car parks assuming only a very limited number of vehicles may be on fire at the same time. The fire spread in a car park environment is dependent on many factors of both the vehicles and the structure, as e.g. the latter has an impact on the rate of fire spread due to re-radiation of the vehicles heat release. Therefore, a CFD model is established to better understand and to develop a tool to assess vehicle on fire scenarios in different structures. Further, the model enable testing of building design to prevent and mitigate such fires scenarios involving hydrogen vehicles. In this study, a real layout of a car park is modelled to investigate the effects of hydrogen emergency releases have using different TPRD diameters. The results provide insight into the behaviour of hydrogen cars and the release pattern of the TPRD’s as well as the temperature development of the concrete ceiling and concrete beams above the cars. It shows that the TPRD diameter has a little effect on the TPRD activation time of the no.1 vehicle when the amount of H2 in the tank is the same. For the surface temperature of ceiling and beam, the peak temperature for a 1mm diameter TPRD release is found highest.
Original languageEnglish
Publication date2021
Number of pages10
Publication statusPublished - 2021
Event9th International Conference on Hydrogen Safety - Edinburgh, United Kingdom
Duration: 21 Sept 202123 Sept 2021
Conference number: 9

Conference

Conference9th International Conference on Hydrogen Safety
Number9
Country/TerritoryUnited Kingdom
CityEdinburgh
Period21/09/202123/09/2021

Keywords

  • Hydrogen vehicle
  • TPRD nozzle diameter
  • Surface temperature
  • Heat release

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