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Nitriding model for zirconium based fuel cladding in severe accident codes
Jäckel, B. S., Birchley, J. C., Lind, T., Steinbrück, M., & Park, S. (2023). Nitriding model for zirconium based fuel cladding in severe accident codes. Journal of Nuclear Materials, 582, 154466 (7 pp.). https://doi.org/10.1016/j.jnucmat.2023.154466
Current understanding of high-temperature oxidation phenomena during air ingress scenarios
Park, S., Lind, T., Birchley, J., & Steinbrueck, M. (2022). Current understanding of high-temperature oxidation phenomena during air ingress scenarios. In F. Gabrielli, L. E. Herranz, & S. Paci (Eds.), Proceedings of the 10th European review meeting on severe accidents research (ERMSAR2022). Severe accident research eleven years after the Fukushima accident (p. 284 (10 pp.). Karlsruher Institut für Technologie (KIT).
Comparative assessment of PSI air oxidation model implementation in SCDAPSim3.5, MELCOR 1.8.6 and MELCOR 2.1
Fernandez-Moguel, L. (2015). Comparative assessment of PSI air oxidation model implementation in SCDAPSim3.5, MELCOR 1.8.6 and MELCOR 2.1. Annals of Nuclear Energy, 81, 134-142. https://doi.org/10.1016/j.anucene.2015.03.015
SARNET2 benchmark on air ingress experiments QUENCH-10, -16
Fernandez-Moguel, L., Bals, C., Beuzet, E., Bratfisch, C., Coindreau, O., Hózer, Z., … Vryashkova, P. (2014). SARNET2 benchmark on air ingress experiments QUENCH-10, -16. Annals of Nuclear Energy, 74, 12-23. https://doi.org/10.1016/j.anucene.2014.05.013
Analysis of QUENCH-10 and -16 air ingress experiments with SCDAPSim3.5
Fernandez-Moguel, L., & Birchley, J. (2013). Analysis of QUENCH-10 and -16 air ingress experiments with SCDAPSim3.5. Annals of Nuclear Energy, 53, 202-212. https://doi.org/10.1016/j.anucene.2012.08.030