CFD simulation and experimental study of a hydrogen leak in a semi-closed space with the purpose of risk mitigation

Computational fluid dynamics (CFD) methods were used to analyze hydrogen leakage in a semi-closed ventilation facility. The goal of the research was to apply numerical simulations to verify hydrogen distribution in the semi-closed space using the commercial STAR-CCM + code and to compare the simulat...

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Bibliographic Details
Published in:International journal of hydrogen energy 2020-03, Vol.45 (15), p.9231-9240
Main Authors: Malakhov, A.A., Avdeenkov, A.V., du Toit, M.H., Bessarabov, D.G.
Format: Article
Language:English
Subjects:
CFD simulation
Forced ventilation
Hydrogen leakage
Hydrogen safety
STAR-CCM
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Summary:Computational fluid dynamics (CFD) methods were used to analyze hydrogen leakage in a semi-closed ventilation facility. The goal of the research was to apply numerical simulations to verify hydrogen distribution in the semi-closed space using the commercial STAR-CCM + code and to compare the simulation results with experimental results. Experiments were conducted in a container with the dimensions 12.11 m × 2.39 m × 2.34 m. The experimental facility represents part of an underground mining tunnel. In the study, different combinations of hydrogen release pressure and leak orifice size were considered. The efficiency of forced ventilation in semi-closed spaces was also investigated. The hydrogen distribution in the ventilation facility was studied through experimental investigation and confirmed by CFD simulation. Our numerical results could be useful in the analysis of safety issues in semi-closed ventilation facilities, such as in mining tunnels. •Computational fluid dynamics methods were used to analyze hydrogen leakage.•STAR-CCM+ code was used to compare the simulation results with experimental results.•Combinations of hydrogen release pressure and leak orifice size were considered.•Efficiency of forced ventilation in semi-closed spaces was investigated.•Numerical results could be useful in the analysis of safety issues in mining tunnels.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2020.01.035