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.

An experimental investigation of detonation limits in hydrogen-oxygen-argon mixtures

Gao, Y. ., Zhang, B. ., Ng, H. D., & Lee, J. H. S. (2016). An experimental investigation of detonation limits in hydrogen-oxygen-argon mixtures. International Journal of Hydrogen Energy, 41(14), 6076-6083+. https://doi.org/10.1016/j.ijhydene.2016.02.130 (Original work published)
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Effects of ignition location, obstacles, and vent location on the vented hydrogen-air deflagrations with low vent burst pressure in a 20-foot container

Luo, X. J., Wang, C. J., Rui, S. C., Wan, Y. ., Zhang, Z. ., & Li, Q. . (2020). Effects of ignition location, obstacles, and vent location on the vented hydrogen-air deflagrations with low vent burst pressure in a 20-foot container. Fuel, 280, 8+. https://doi.org/10.1016/j.fuel.2020.118677 (Original work published)
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Effects of thermal radiation heat transfer on flame acceleration and transition to detonation in particle-cloud hydrogen flames

Liberman, M. A., Ivanov, M. F., & Kiverin, A. D. (2015). Effects of thermal radiation heat transfer on flame acceleration and transition to detonation in particle-cloud hydrogen flames. Journal of Loss Prevention in the Process Industries, 38, 176-186+. https://doi.org/10.1016/j.jlp.2015.09.006 (Original work published 2025)
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Effect of solid obstacle distribution on flame acceleration and DDT in obstructed channels filled with hydrogen-air mixture

Wang, J. B., . Y. Zhao, X. ., Gao, L. K., Wang, X. J., & Zhu, Y. J. (2022). Effect of solid obstacle distribution on flame acceleration and DDT in obstructed channels filled with hydrogen-air mixture. International Journal of Hydrogen Energy, 47(25), 12759-12770+. https://doi.org/10.1016/j.ijhydene.2022.02.035 (Original work published)
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Combustion modeling in large scale volumes using EUROPLEXUS code

Velikorodny, A. ., Studer, E. ., Kudriakov, S. ., & Beccantini, A. . (2015). Combustion modeling in large scale volumes using EUROPLEXUS code. Journal of Loss Prevention in the Process Industries, 35, 104-116+. https://doi.org/10.1016/j.jlp.2015.03.014 (Original work published 2025)
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Combustion of hydrogen-oxygen microfoam on the water base

Kichatov, B. ., Korshunov, A. ., Kiverin, A. ., & Son, E. . (2017). Combustion of hydrogen-oxygen microfoam on the water base. International Journal of Hydrogen Energy, 42(26), 16866-16876+. https://doi.org/10.1016/j.ijhydene.2017.05.141 (Original work published)
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Comments on explosion problems for hydrogen safety

Ng, H. D., & Lee, J. H. S. (2008). Comments on explosion problems for hydrogen safety. Journal of Loss Prevention in the Process Industries, 21(2), 136-146+. https://doi.org/10.1016/j.jlp.2007.06.001 (Original work published 2025)
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Combustion modeling in large scale volumes using EUROPLEXUS code

Velikorodny, A. ., Studer, E. ., Kudriakov, S. ., & Beccantini, A. . (2015). Combustion modeling in large scale volumes using EUROPLEXUS code. Journal of Loss Prevention in the Process Industries, 35, 104-116+. https://doi.org/10.1016/j.jlp.2015.03.014 (Original work published 2025)
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Analysis of obstacle shape on gas explosion characteristics

Xiao, G. Q., Wang, S. ., Mi, H. F., & Khan, F. . (2022). Analysis of obstacle shape on gas explosion characteristics. Process Safety and Environmental Protection, 161, 78-87+. https://doi.org/10.1016/j.psep.2022.03.019 (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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