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.

Large-scale Dynamics of Ultra-lean Hydrogen-air Flame Kernels in Terrestrial Gravity Conditions

Volodin, V. V., Golub, V. V., Kiverin, A. D., Melnikova, K. S., Mikushkin, A. Y., & Yakovenko, I. S. (2020). Large-scale Dynamics of Ultra-lean Hydrogen-air Flame Kernels in Terrestrial Gravity Conditions. Combustion Science and Technology, 193(2), 225-234+. https://doi.org/10.1080/00102202.2020.1748606 (Original work published)
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Large-scale flame structures in ultra-lean hydrogen-air mixtures

Yakovenko, I. S., Ivanov, M. F., Kiverin, A. D., & Melnikova, K. S. (2018). Large-scale flame structures in ultra-lean hydrogen-air mixtures. International Journal of Hydrogen Energy, 43(3), 1894-1901+. https://doi.org/10.1016/j.ijhydene.2017.11.138 (Original work published)
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Influence of concentration gradient on detonation re-initiation in a bifurcated channel

Jiang, C. ., Pan, J. ., Zhu, Y. ., Li, J. ., Chen, H. ., & Quaye, E. K. (2022). Influence of concentration gradient on detonation re-initiation in a bifurcated channel. Fuel, 307, 14+. https://doi.org/10.1016/j.fuel.2021.121895 (Original work published 2025)
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Influence of perforated plate thickness on supersonic combustion wave propagation mechanism in a stoichiometric H2-O2 mixture

Guo, W. ., Li, Q. ., Lv, Z. W., Zhang, A. F., & Shen, Z. H. (2022). Influence of perforated plate thickness on supersonic combustion wave propagation mechanism in a stoichiometric H2-O2 mixture. Fuel, 311, 11+. https://doi.org/10.1016/j.fuel.2021.122609 (Original work published)
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Experimental study of flame propagation across a perforated plate

Li, Q. ., Sun, X. X., Lu, S. X., Zhang, Z. ., Wang, X. ., Han, S. ., & Wang, C. J. (2018). Experimental study of flame propagation across a perforated plate. International Journal of Hydrogen Energy, 43(17), 8524-8533+. https://doi.org/10.1016/j.ijhydene.2018.03.079 (Original work published)
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Effect of orifice plates spaces on flame propagation in a square cross-section channel

Li, Q. ., Lu, S. X., & Wang, C. J. (2019). Effect of orifice plates spaces on flame propagation in a square cross-section channel. International Journal of Hydrogen Energy, 44(40), 22537-22546+. https://doi.org/10.1016/j.ijhydene.2018.11.220 (Original work published)
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Consequence models for vented hydrogen deflagrations: CFD vs engineering models

Lakshmipathy, S. ., Skjold, T. ., Hisken, H. ., & Atanga, G. . (2019). Consequence models for vented hydrogen deflagrations: CFD vs engineering models. International Journal of Hydrogen Energy, 44(17), 8699-8710+. https://doi.org/10.1016/j.ijhydene.2018.08.079 (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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This material was prepared as an account of work sponsored by an agency of the United States Government.
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