| A model for fission gas release and gaseous swelling of the uranium dioxide fuel coupled with the FALCON code G Khvostov, K Mikityuk, MA Zimmermann Nuclear Engineering and Design 241 (8), 2983-3007, 2011 | 85 | 2011 |
| Approaches to modeling of high burn-up structure and analysis of its effects on the behaviour of light water reactor fuels in the START-3 fuel performance code G Khvostov, V Novikov, A Medvedev, S Bogatyr Japan: N. p, 2005 | 38 | 2005 |
| Spent nuclear fuel in dry storage conditions–current trends in fuel performance modeling P Konarski, C Cozzo, G Khvostov, H Ferroukhi Journal of Nuclear Materials 555, 153138, 2021 | 33 | 2021 |
| REPORT ON FUEL FRAGMENTATION, RELOCATION AND DISPERSAL H Sonnenburg, W Wiesenack, J Karlsson, J Noirot, V Garat, N Waeckel, ... https://www.oecd-nea.org/nsd/docs/2016/csni-r2016-16.pdf, 2016 | 30 | 2016 |
| Application of the FALCON code to PCI induced cladding failure and the effects of missing pellet surface G Khvostov, W Lyon, MA Zimmermann Annals of Nuclear Energy 62, 398-412, 2013 | 29 | 2013 |
| Some insights into the role of axial gas flow in fuel rod behaviour during the LOCA based on Halden tests and calculations with the FALCON-PSI code G Khvostov, W Wiesenack, MA Zimmermann, G Ledergerber Nuclear Engineering and Design 241 (5), 1500-1507, 2011 | 28 | 2011 |
| Modeling the effects of axial fuel relocation in the IFA-650.4 LOCA test G Khvostov, A Romano, MA Zimmermann Enlarged Halden programme group meeting, 200711-16, 2007 | 28 | 2007 |
| Models for numerical simulation of burst FGR in fuel rods under the conditions of RIA G Khvostov Nuclear Engineering and Design, 328: 36-57, 2018 | 22 | 2018 |
| Multi-scale approach to advanced fuel modelling for enhanced safety F Ribeiro, G Khvostov Progress in Nuclear Energy 84, 24-35, 2015 | 20 | 2015 |
| A dynamic model for fission gas release and gaseous swelling integrated into the FALCON fuel analysis and licensing code G Khvostov Proc. TOP Fuel, 6-10, 2009 | 19 | 2009 |
| Assessment of fuel rod performance codes under ramp scenarios investigated within the SCIP project LE Herranz, I Vallejo, G Khvostov, J Sercombe, G Zhou Nuclear engineering and design 241 (3), 815-825, 2011 | 18 | 2011 |
| Modeling of central void formation in LWR fuel pellets due to high-temperature restructuring G Khvostov Nuclear Engineering and Technology 50 (7), 1190-1197, 2018 | 15 | 2018 |
| Analysis of effects of pellet-cladding bonding on trapping of the released fission gases in high burnup KKL BWR fuels V Brankov, G Khvostov, K Mikityuk, A Pautz, R Restani, S Abolhassani, ... Nuclear Engineering and Design 305, 559-568, 2016 | 15 | 2016 |
| Analysis of a Halden LOCA test with the BWR high burnup fuel G Khvostov, A Pautz, E Kolstad, G Ledergerber System 1, 103, 2013 | 15 | 2013 |
| Development of the fission gas behaviour model in the START-3 code and its experimental support YK Bibilashvili, AV Medvedev, GA Khvostov, SM Bogatyr, LV Korystine Proceedings of Inter. Seminar on Fission Gas Behaviour in Water Reactor …, 2000 | 15 | 2000 |
| The dynamic model of grain boundary processes in high burnup LWR fuel and its application in analysis by the START-3 code G Khvostov, A Medvedev, S Bogatyr | 13 | 2003 |
| FALCON code-based analysis of PWR fuel rod behaviour during RIA transients versus new US NRC and current Swiss failure limits G Khvostov, A Gorzel Nuclear Engineering and Technology 53 (11), 3741-3758, 2021 | 12 | 2021 |
| Analytical criteria for fuel fragmentation and burst FGR during a LOCA G Khvostov Nuclear Engineering and Technology 52 (10), 2402-2409, 2020 | 12 | 2020 |
| Analysis of selected Halden overpressure tests using the FALCON code G Khvostov, W Wiesenack Nuclear Engineering and Design 310, 395-409, 2016 | 11 | 2016 |
| Safety significance of the Halden IFA-650 LOCA test results W Wiesenack, T Fuketa, C Grandjean, H Hozer, S Kelppe, G Khvostov, ... NEA/CSNI/R (2010) 5, 2010 | 11 | 2010 |
Martin ZimmermannretiredVerified email at alumni.ethz.ch