LESSONS
LEARNED
Disclaimer: The Lessons Learned Database includes the incidents that were voluntarily submitted. The database is not a comprehensive source for all incidents that have occurred.

Risk analysis on a fuel cell in electric vehicle using the MADS/MOSAR methodology

Bultel, Y. ., Aurousseau, M. ., Ozil, P. ., & Perrin, L. . (2007). Risk analysis on a fuel cell in electric vehicle using the MADS/MOSAR methodology. Process Safety and Environmental Protection, 85(B3), 241-250+. https://doi.org/10.1205/psep06023 (Original work published 2025)
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Risk analysis on a fuel cell in electric vehicle using the MADS/MOSAR methodology

Bultel, Y. ., Aurousseau, M. ., Ozil, P. ., & Perrin, L. . (2007). Risk analysis on a fuel cell in electric vehicle using the MADS/MOSAR methodology. Process Safety and Environmental Protection, 85(B3), 241-250+. https://doi.org/10.1205/psep06023 (Original work published 2025)
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Research on hydrogen dispersion by Raman measurement

Segawa, Y. ., Inoue, M. ., Nakamoto, A. ., & Umehara, S. . (2019). Research on hydrogen dispersion by Raman measurement. International Journal of Hydrogen Energy, 44(17), 8981-8987+. https://doi.org/10.1016/j.ijhydene.2018.07.022 (Original work published)
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Remaining uncertainties in the kinetic mechanism of hydrogen combustion

Konnov, A. A. (2008). Remaining uncertainties in the kinetic mechanism of hydrogen combustion. Combustion and Flame, 152(4), 507-528+. https://doi.org/10.1016/j.combustflame.2007.10.024 (Original work published 2025)
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Propagation of blast waves from a bursting vessel with internal hydrogen-air deflagration

Mogi, T. ., Matsunaga, T. ., & Dobashi, R. . (2017). Propagation of blast waves from a bursting vessel with internal hydrogen-air deflagration. International Journal of Hydrogen Energy, 42(11), 7683-7690+. https://doi.org/10.1016/j.ijhydene.2016.06.106 (Original work published)
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Pressure peaking phenomenon for indoor hydrogen releases

Brennan, S. ., & Molkov, V. . (2018). Pressure peaking phenomenon for indoor hydrogen releases. International Journal of Hydrogen Energy, 43(39), 18530-18541+. https://doi.org/10.1016/j.ijhydene.2018.08.096 (Original work published)
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Pressure peaking phenomenon: Model validation against unignited release and jet fire experiments

Makarov, D. ., Shentsov, V. ., Kuznetsov, M. ., & Molkov, V. . (2018). Pressure peaking phenomenon: Model validation against unignited release and jet fire experiments. International Journal of Hydrogen Energy, 43(19), 9454-9469+. https://doi.org/10.1016/j.ijhydene.2018.03.162 (Original work published)
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Process Risk Index (PRI) - A methodology to analyze the design and operational hazards in the processing facility

Chau, K. ., Djire, A. ., Vaddiraju, S. ., & Khan, F. . (2022). Process Risk Index (PRI) - A methodology to analyze the design and operational hazards in the processing facility. Process Safety and Environmental Protection, 165, 623-632+. https://doi.org/10.1016/j.psep.2022.07.049 (Original work published 2025)
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Physical model of onboard hydrogen storage tank thermal behaviour during fuelling

Molkov, V. ., Dadashzadeh, M. ., & Makarov, D. . (2019). Physical model of onboard hydrogen storage tank thermal behaviour during fuelling. International Journal of Hydrogen Energy, 44(8), 4374-4384+. https://doi.org/10.1016/j.ijhydene.2018.12.115 (Original work published)
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Predicting radiative heat fluxes and flammability envelopes from unintended releases of hydrogen

Houf, W. ., & Schefer, R. . (2007). Predicting radiative heat fluxes and flammability envelopes from unintended releases of hydrogen. International Journal of Hydrogen Energy, 32(1), 136-151+. https://doi.org/10.1016/j.ijhydene.2006.04.009 (Original work published 2025)
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This material was prepared as an account of work sponsored by an agency of the United States Government.
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