This website lists selected publications from the HySEA project.
Newsletters
- The First HySEA Newsletter was distributed on 28 November 2015.
- The Second HySEA Newsletter was distributed on 30 November 2016.
- The Third HySEA Newsletter was distributed on 30 November 2017.
- The Fourth HySEA Newsletter was distributed on 30 November 2018.
Conference papers
- Atanga, G., Lakshmipathy, S., Skjold, T., Hisken, H. & Hanssen, A.G. (2017). Structural response for vented hydrogen deflagrations: coupling CFD and FE tools. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 224, Hamburg, 11-13 September 2017: 378-387. ISBN 978-88-902391. DOI
- Hisken, H., Atanga, G., Skjold, T., Lakshmipathy, S. & Middha, P. (2016). Validating, documenting and qualifying models used for consequence assessment of hydrogen explosion scenarios. Proceedings Eleventh International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (11 ISHPMIE), Dalian, 24-29 July 2016: 1069-1086. DOI
- Lakshmipathy, S., Skjold, T., Hisken, H. & Atanga, G. (2017). Consequence models for vented hydrogen deflagrations: CFD vs. engineering models. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 222, Hamburg, 11-13 September 2017: 615-626. ISBN 978-88-902391. DOI
- Pini, T., Hanssen, A.G., Schiavetti, M. & Carcassi, M. (2017). Experimental measurements of structural displacement during hydrogen vented deflagrations for FE model validation. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 225, Hamburg, 11-13 September 2017: 400-411. ISBN 978-88-902391. URL
- Rao, V.C.M & Wen, J.X. (2017). Numerical modelling of vented lean hydrogen–air deflagrations using HyFOAM. Twenty-Sixth International Colloquium on the Dynamics of Explosions and Reactive Systems (26 ICDERS), Boston, 30 July – 4 August 2017, 6 pp. URL
- Sinha, A., Rao, V.C.M & Wen, J.X. (2017). Evaluation of engineering models for vented lean hydrogen deflagrations. Twenty-Sixth International Colloquium on the Dynamics of Explosions and Reactive Systems (26 ICDERS), Boston, 30 July – 4 August 2017, 6 pp. URL
- Rao, V.C.M. & Wen, J.X. (2017). Vented hydrogen deflagrations in an ISO container. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 222, Hamburg, 11-13 September 2017: 579-590. ISBN 978-88-902391. DOI
- Schiavetti, M., Pini, T. & Carcassi, M. (2017). Homogeneous hydrogen deflagrations in small scale enclosure: experimental results. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 222, Hamburg, 11-13 September 2017: 533-544. ISBN 978-88-902391. DOI
- Schiavetti, M., Pini, T. & Carcassi, M. (2017). The role of the flow field generated by the venting process on the time history of a vented deflagration. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 222, Hamburg, 11-13 September 2017: 567-578. ISBN 978-88-902391. URL
- Sinha, A., R ao, V.C.M. & Jennifer X. Wen. (2017). Performance evaluation of empirical models for vented lean hydrogen explosions. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 222, Hamburg, 11-13 September 2017: 545-555. ISBN 978-88-902391. DOI
- Skjold, T., Hisken, H., Lakshmipathy, S., Atanga, G., van Wingerden, M., Olsen, K.L., Holme, M.N., Turøy, N.M., Mykleby, M & van Wingerden, K. (2017). Influence of congestion on vented hydrogen deflagrations in 20-foot ISO containers: homogeneous fuel-air mixtures. Twenty-Sixth International Colloquium on the Dynamics of Explosions and Reactive Systems (26 ICDERS), Boston, 30 July – 4 August 2017, 6 pp. URL
- Skjold, T., Hisken, H., Lakshmipathy, S., Atanga, G., van Wingerden, M., Olsen, K.L., Holme, M.N., Turøy, N.M., Mykleby, M. & van Wingerden, K. (2017). Vented hydrogen deflagrations in containers: effect of congestion for homogeneous mixtures. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 223, Hamburg, 11-13 September 2017: 591-603. ISBN 978-88-902391. DOI
- Skjold, T., Hisken, H., Lakshmipathy, S., Atanga, G., Carcassi, M., Schiavetti, M., Stewart, J.R., Newton, A., Hoyes, J.R., Tolias, I.C., Venetsanos, A.G., Hansen, O.R., Geng, J., Huser, A., Helland, S., Jambut, R., Ren, K., Kotchourko, A., Jordan, T., Daubech, J., Lecocq, G., Hanssen, A.G., Kumar, C., Krumenacker, L., Jallais, S., Miller, D. & Bauwens, C.R. (2017). Blind-prediction: estimating the consequences of vented hydrogen deflagrations for homogeneous mixtures in 20-foot ISO containers. Proceedings Seventh International Conference on Hydrogen Safety (ICHS 2017), Paper # 225, Hamburg, 11-13 September 2017: 639-652. ISBN 978-88-902391. DOI
- Rao, V.C.M. & Wen, J.X. (2018). Fluid structure interactions modelling in vented lean deflagrations. Proceedings Twelfth International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (XII ISHPMIE), ISBN 978-1-5323-8443-1, Kansas City, 12-17 August 2018: 899-914. DOI
- Sinha, A., Rao, V.C.M. & Wen, J.X. (2018). Comparison of engineering and CFD model predictions for overpressures in vented explosions. Proceedings Twelfth International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (XII ISHPMIE), ISBN 978-1-5323-8443-1, Kansas City, 12-17 August 2018: 860-874. DOI
- Sinha, A. & Wen, J.X. (2018). Phenomenological modelling of external cloud formation in vented explosions. Proceedings Twelfth International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (XII ISHPMIE), ISBN 978-1-5323-8443-1, Kansas City, 12-17 August 2018: 847-859. DOI
- Skjold, T., Hisken, H., Bernard, L., Mauri, L., Atanga, G., Lakshmipathy, S., Lucas Pérez, M., Carcassi, M., Schiavetti, M., Rao, V.C.M., Sinha, A., Tolias, I.C., Giannissi, S.G., Venetsanos, A.G., Stewart, J.R., Hansen, O.R., Kumar, C., Krumenacker, L., Laviron, F., Jambut, R. & Huser, A. (2018). Blind-prediction: estimating the consequences of vented hydrogen deflagrations for inhomogeneous mixtures in 20-foot ISO containers. Proceedings Twelfth International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (XII ISHPMIE), ISBN 978-1-5323-8443-1, Kansas City, 12-17 August 2018: 875-898. DOI
- Skjold, T. (2018). Vented hydrogen deflagrations in 20-foot ISO containers. Proceedings Twelfth International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions (XII ISHPMIE), ISBN 978-1-5323-8443-1, Kansas City, 12-17 August 2018: 823-846 DOI
- Sinha, A. & Wen, J.X. (2018). Modelling of flow past obstacles in vented explosions. Seventh International and Forty-fifth National Fluid Mechanics and Fluid Power Conference (FMFP 2018), Mumbai, India, 10-12 December 2018. DOI
- Rao, V.C.M & Wen, J.X. (2019). Modelling approach for vented lean deflagrations in non-rigid enclosures. Proceedings Ninth International Seminar on Fire and Explosion Hazards (ISFEH9), 21-24 April 2019, Saint Petersburg, Russia, Vol. 1: 393-402. DOI
- Skjold, T. (2019). Vented hydrogen deflagrations in weak enclosures: experimental results and implications for industrial practice. Chemical Engineering Transactions, 77: 685-690. URL
- Wen, J.X. & Rao, V.C.M (2019). Numerical investigation of venting through roof for an ISO containers. Twenty-Seventh International Colloquium on the Dynamics of Explosions and Reactive Systems (27 ICDERS), Beijing, 28 July – 2 August 2019, 6 pp. URL
- Skjold, T., Hisken, H., Bernard, L. & Hanssen, A.G. (2019). Structural response of 20-foot shipping containers during vented hydrogen deflagrations. Twenty-Seventh International Colloquium on the Dynamics of Explosions and Reactive Systems (27 ICDERS), Beijing, 28 July – 2 August 2019, 6 pp. URL
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Lucas, M., Hisken, H. & Skjold, T. (2019). Simulating vented hydrogen deflagrations: improved modelling in the CFD tool FLACS-Hydrogen. Eighth International Conference on Hydrogen Safety (ICHS 2019), Adelaide, 24-26 September 2019.
Journal papers
- Guo, J., Sun, X., Rui S., Cao, Y., Hu, K., & Wang, C.J. (2015). Effect of ignition position on vented hydrogen-air explosions. International Journal of Hydrogen Energy, 40: 15780-15788. DOI
- Guo, J., Liu, X. & Wang, C.J. (2017). Experiments on vented hydrogen-air deflagrations: the influence of hydrogen concentration. Journal of Loss Prevention in the Process Industries, 48:254-259. DOI
- Guo, J., Wang, C.J., Liu, X. & Chen, Y. (2017). Explosion venting of rich hydrogen-air mixtures in a small cylindrical vessel with two symmetrical vents. International Journal of Hydrogen Energy, 42: 7644-7650. DOI
- Wang, C.J. & Wen, J.X. (2017). Numerical simulation of flame acceleration and deflagration-to-detonation transition in hydrogen-air mixtures with concentration gradients. International Journal of Hydrogen Energy, 42: 7657-7663. DOI
- Atanga, G., Lakshmipathy, S., Skjold, T., Hisken, H. & Hanssen, A.G. (2019). Structural response for vented hydrogen deflagrations: coupling CFD and FE tools. International Journal of Hydrogen Energy, 44: 8893-8903. DOI
- Carcassi. M., Schiavetti, M. & Pini, T. (2018). Non-homogeneous hydrogen deflagrations in small scale enclosure: Experimental results. International Journal of Hydrogen Energy, 43: 19293-19304. DOI
- 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: 8699-8710. DOI
- Li, H., Guo, J., Yang, F. Wang, C., Zhang, J. & Lu, A (2018). Explosion venting of hydrogen-air mixtures from a duct to a vented vessel. International Journal of Hydrogen Energy, 43: 11307-11313. DOI
- Pini, T., Grønsund Hanssen, A., Schiavetti, M. & Carcassi, M. (2019). Small scale experiments and FE model validation of structural response during hydrogen vented deflagrations. International Journal of Hydrogen Energy, 44: 9063-9070. DOI
- Rao, V.C.M. & Wen, J.X. (2019). Numerical modelling of vented lean hydrogen deflagrations in an ISO container. International Journal of Hydrogen Energy, 44: 8767-8779. DOI
- Rui, S., Guo, J., Li, G. & Wang, C. (2018). The effect of vent burst pressure on a vented hydrogen-air deflagration in a 1 m3 vessel. International Journal of Hydrogen Energy, 43: 21169-21174. DOI
- Schiavetti, M., Pini, T. & Carcassi, M. (2019). The effect of venting process on the progress of a vented deflagration. International Journal of Hydrogen Energy, 44: 9080-9088. DOI
- Sinha, A., Rao, V.C.M. & Wen, J.X. (2019). Performance evaluation of empirical models for vented lean hydrogen explosions. International Journal of Hydrogen Energy, 44: 8711-8726. DOI
- Sinha, A. & Wen, J.X. (2019). A simple model for calculating peak pressure in vented explosions of hydrogen and hydrocarbons. International Journal of Hydrogen Energy. In press, DOI: DOI
- Skjold, T., Hisken, H., Lakshmipathy, S., Atanga, G., Carcassi, M., Schiavetti, M., Stewart, J.R., Newton, A., Hoyes, J.R., Tolias, I.C., Venetsanos, A.G., Hansen, O.R., Geng, J., Huser, A., Helland, S., Jambut, R., Ren, K., Kotchourko, A., Jordan, T., Daubech, J., Lecocq, G., Hanssen, A.G., Kumar, C., Krumenacker, L., Jallais, S., Miller, D. & Bauwens, C.R. (2019). Blind-prediction: estimating the consequences of vented hydrogen deflagrations for homogeneous mixtures in 20-foot ISO containers. International Journal of Hydrogen Energy, 44: 8997-9008. DOI
- Skjold, T., Hisken, H., Lakshmipathy, S., Atanga, G., van Wingerden, M., Olsen, K.L., Holme, M.N., Turøy, N.M., Mykleby, M. & van Wingerden, K. (2019). Vented hydrogen deflagrations in containers: effect of congestion for homogeneous and inhomogeneous mixtures. International Journal of Hydrogen Energy, 44: 8819-8832. DOI
- Wang, C.J. & Wen, J.X. (2017). Numerical simulation of flame acceleration and deflagration-to-detonation transition in hydrogen-air mixtures with concentration gradients. International Journal of Hydrogen Energy, 42: 7657-7663. DOI
- Yang, F., Guo, J., Wang, C. & Lu, S.(2018). Duct-vented hydrogen-air deflagrations: The effect of duct length and hydrogen concentration. International Journal of Hydrogen Energy, 43: 21142-21148. DOI
- Guo, J., Liu, X. & Wang, C.J. (2017). Experiments on vented hydrogen-air deflagrations: the influence of hydrogen concentration. Journal of Loss Prevention in the Process Industries, 48:254-259. DOI
- Skjold, T., Hisken, H., Bernard, L., Mauri, L., Atanga, G., Lakshmipathy, S., Lucas, M., Carcassi, M., Schiavetti, M., Rao, V.C.M., Sinha, A., Tolias, I.C., Giannissi, S.G., Venetsanos, A.G., Stewart, J.R., Hansen, O.R., Kumar, C., Krumenacker, L., Laviron, F., Jambut, R. & Huser, A. (2019a). Blind-prediction: estimating the consequences of vented hydrogen deflagrations for inhomogeneous mixtures in 20-foot ISO containers. Journal of Loss Prevention in the Process Industries, 61:220-236. DOI
- Sinha, A., Rao, V.C.M. & Wen, J.X. (2019). Modular phenomenological model for vented explosions and its validation with experimental and computational results. Journal of Loss Prevention in the Process Industries, 61:8-23. DOI
- Rao, V.C.M. & Wen, J.X. (2019). Fluid structure interactions modelling in vented lean deflagrations. Journal of Loss Prevention in the Process Industries, 61:183-194. DOI
- Lucas, M., Skjold, T. & Hisken, H. (2020). Computational fluid dynamics simulations of hydrogen releases and vented deflagrations in large enclosures. Journal of Loss Prevention in the Process Industries, 63: 103999. DOI
- Sinha, A. & Wen, J.X. (2019). A simple model for estimating peak pressure in vented explosions of hydrogen and hydrocarbons. FABIG Newsletter – issue 76: 32-44.
- Skjold, T., Lucas, M., Hisken, H., Atanga, G., Lakshmipathy, S., van Wingerden, K., Wen, J., Rao, V.C.M., Sinha, A., Carcassi, M., Schiavetti, M., Pini, T., Hanssen, A.G., Snoeys, J., Wang, C. & Jallais, S. (2019). Summary of the HySEA project. FABIG Newsletter – issue 76: 17-31.