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Under-expansion jet flame propagation characteristics of premixed H2/air in explosion venting

Cao, W. ., Zhou, Z. ., Li, W. ., Zhao, Y. ., Yang, Z. ., Zhang, Y. ., … Tan, Y. . (2021). Under-expansion jet flame propagation characteristics of premixed H2/air in explosion venting. International Journal of Hydrogen Energy, 46(78), 38913-38922+. https://doi.org/10.1016/j.ijhydene.2021.09.109 (Original work published)

Thermal radiation from cryogenic hydrogen jet fires

Cirrone, D. M. C., Makarov, D. ., & Molkov, V. . (2019). Thermal radiation from cryogenic hydrogen jet fires. International Journal of Hydrogen Energy, 44(17), 8874-8885+. https://doi.org/10.1016/j.ijhydene.2018.08.107 (Original work published)

A study on a numerical simulation of the leakage and diffusion of hydrogen in a fuel cell ship

Li, F. ., Yuan, Y. P., Yan, X. P., Malekian, R. ., & Li, Z. X. (2018). A study on a numerical simulation of the leakage and diffusion of hydrogen in a fuel cell ship. Renewable & Sustainable Energy Reviews, 97, 177-185+. https://doi.org/10.1016/j.rser.2018.08.034 (Original work published 2025)

A simple and effective approach for evaluating unconfined hydrogen/air cloud explosions

Pu, L. ., . Y. Shao, X. ., Li, Q. ., & Li, Y. Z. (2018). A simple and effective approach for evaluating unconfined hydrogen/air cloud explosions. International Journal of Hydrogen Energy, 43(21), 10193-10204+. https://doi.org/10.1016/j.ijhydene.2018.04.041 (Original work published)

Simplified partitioning model to simulate high pressure under-expanded jet flows impinging vertical obstacles

Hu, J. H., Christopher, D. M., & Li, X. F. (2018). Simplified partitioning model to simulate high pressure under-expanded jet flows impinging vertical obstacles. International Journal of Hydrogen Energy, 43(29), 13649-13658+. https://doi.org/10.1016/j.ijhydene.2018.05.036 (Original work published)

Simulation of thermal hazards from hydrogen under-expanded jet fire

Cirrone, D. M. C., Makarov, D. ., & Molkov, V. . (2019). Simulation of thermal hazards from hydrogen under-expanded jet fire. International Journal of Hydrogen Energy, 44(17), 8886-8892+. https://doi.org/10.1016/j.ijhydene.2018.08.106 (Original work published)

Self-ignition and explosion of a 13-MPa pressurized unsteady hydrogen jet under atmospheric conditions

Mironov, V. N., Penyazkou, O. G., & Ignatenko, D. G. (2015). Self-ignition and explosion of a 13-MPa pressurized unsteady hydrogen jet under atmospheric conditions. International Journal of Hydrogen Energy, 40(16), 5749-5762+. https://doi.org/10.1016/j.ijhydene.2015.02.021 (Original work published)

Review of hydrogen safety during storage, transmission, and applications processes

Abohamzeh, E. ., Salehi, F. ., Sheikholeslami, M. ., Abbassi, R. ., & Khan, F. . (2021). Review of hydrogen safety during storage, transmission, and applications processes. Journal of Loss Prevention in the Process Industries, 72, 19+. https://doi.org/10.1016/j.jlp.2021.104569 (Original work published 2025)

Review on the Hydrogen Dispersion and the Burning Behavior of Fuel Cell Electric Vehicles

Lan, H. ., . Y. Wang, G. ., Zhao, K. ., He, Y. T., & Zheng, T. L. (2022). Review on the Hydrogen Dispersion and the Burning Behavior of Fuel Cell Electric Vehicles. Energies, 15(19), 13+. https://doi.org/10.3390/en15197295 (Original work published 2025)

Physics and flame morphology of supersonic spontaneously combusting hydrogen spouting into air

Jiang, Y. M., Pan, X. H., Cai, Q. ., Wang, Z. L., Klymenko, O. ., Hua, M. ., … Jiang, J. C. (2022). Physics and flame morphology of supersonic spontaneously combusting hydrogen spouting into air. Renewable Energy, 196, 959-972+. https://doi.org/10.1016/j.renene.2022.06.153 (Original work published 2025)
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