kw.\*:("Reactivity initiated accident")
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Failure thresholds of high burnup BWR fuel rods under RIA conditionsNAKAMURA, Takehiko; FUKETA, Toyoshi; SUGIYAMA, Tomoyuki et al.Journal of Nuclear Science and Technology. 2004, Vol 41, Num 1, pp 37-43, issn 0022-3131, 7 p.Article
Sensitivity analysis of hot channel calculation methodsPARKA, I; TELBISZ, M.Progress in nuclear energy (New series). 2007, Vol 49, Num 1, pp 27-36, issn 0149-1970, 10 p.Article
Behavior of Nb2O5 doped/unpressurized UO2 fuel under transientYANAGISAWA, K.Journal of Nuclear Science and Technology. 1995, Vol 32, Num 2, pp 111-117, issn 0022-3131Article
Evaluation of photon shielding capability for epithermal neutron detection during reactivity-initiated power burst experimentsYANAGISAWA, Hiroshi; NAKAJIMA, Ken; OHNO, Akio et al.Journal of Nuclear Science and Technology. 2002, Vol 39, Num 7, pp 800-803, issn 0022-3131Article
Influence of hydride re-orientation on BWR cladding rupture under accidental conditionsNAGASE, Fumihisa; FUKETA, Toyoshi.Journal of Nuclear Science and Technology. 2004, Vol 41, Num 12, pp 1211-1217, issn 0022-3131, 7 p.Article
Uncertainty analyses of hot channel calculations : Determination of the number of failed fuel rodsPANKA, I; KERESZTURI, A.Progress in nuclear energy (New series). 2007, Vol 49, Num 7, pp 534-545, issn 0149-1970, 12 p.Article
Assessment on integrity of BWR internals against impact load by water hammer under conditions of reactivity initiated accidentsAZUMA, Mie; TANIGUCHI, Atsushi; HOTTA, Akitoshi et al.Nuclear technology. 2005, Vol 149, Num 3, pp 243-252, issn 0029-5450, 10 p.Article
A methodology for developing a probability distribution for the failure enthalpy of high-burnup fuels via simulationPAGANI, Lorenzo P; APOSTOLAKIS, George E.Nuclear technology. 2006, Vol 153, Num 1, pp 9-17, issn 0029-5450, 9 p.Article
Assessment of RELAP5 point kinetic model against reactivity insertion transient in the IAEA 10 MW MTR research reactorHAMIDOUCHE, T; BOUSBIA-SALAH, A.Nuclear engineering and design. 2010, Vol 240, Num 3, pp 672-677, issn 0029-5493, 6 p.Article
Analysis on split failure of cladding of high bumup BWR rods in reactivity-initiated accident conditions by RANNS codeSUZUKI, Motoe; SAITOU, Hiroaki; FUKETA, Toyosi et al.Nuclear engineering and design. 2006, Vol 236, Num 2, pp 128-139, issn 0029-5493, 12 p.Article
An overview of reactivity initiated accident behavior of rock-like fueled pressurized water reactorsAKIE, H; NAKAMURA, T.Progress in nuclear energy (New series). 2001, Vol 38, Num 3-4, pp 363-370, issn 0149-1970Conference Paper
Mechanical energy generation during high burnup fuel failure under reactivity initiated accident conditionsSUGIYAMA, Tomoyuki; FUKETA, Toyoshi.Journal of Nuclear Science and Technology. 2000, Vol 37, Num 10, pp 877-886, issn 0022-3131Article
Thermal Stress Analysis of High-Burnup LWR Fuel Pellet Pulse-Irradiated in Reactivity-Initiated Accident ConditionsSUZUKI, Motoe; SUGIYAMA, Tomoyuki; FUKETA, Toyoshi et al.Journal of nuclear science and technology. 2008, Vol 45, Num 11, pp 1155-1164, issn 0022-3131, 10 p.Article
Modelling of clad-to-coolant heat transfer for RIA applicationsBESSIRON, Vincent.Journal of Nuclear Science and Technology. 2007, Vol 44, Num 2, pp 211-221, issn 0022-3131, 11 p.Article
Computational assessment of burnup-dependent fuel failure thresholds for reactivity initiated accidentsJERNKVIST, Lars Olof.Journal of Nuclear Science and Technology. 2006, Vol 43, Num 5, pp 546-561, issn 0022-3131, 16 p.Article
FORMATION OF NEUTRON-PHYSICAL CONDITIONS FOR TESTING IN THE MIR REACTOR VVER FUEL ELEMENTS IN NONSTATIONARY REGIMES WITH A POWER INCREASEALEKSEEV, A. V; KALYGIN, V. V; MALKOV, A. P et al.Atomic energy (New York, N.Y.). 2008, Vol 104, Num 5, pp 365-371, issn 1063-4258, 7 p.Article
Simulation of heat emission from fuel element cladding with rapid energy inputANTONOVA, L. I; AFANASEVA, E. Yu; DROBYAZKO, S. V et al.Atomic energy (New York, N.Y.). 2002, Vol 92, Num 2, pp 110-117, issn 1063-4258Article
Scientific and technical communications : Methods for preventing accidents during unforeseen reactivity growthTAKIBAEV, Zh. S.Atomic energy (New York, N.Y.). 2001, Vol 90, Num 1, pp 70-73, issn 1063-4258Article
Transient elongation of a fresh fuel rod under reactivity initiated accident conditionsISHIJIMA, K; NAKAMURA, T.Journal of Nuclear Science and Technology. 1996, Vol 33, Num 3, pp 229-238, issn 0022-3131Article
OECD/DOE/CEA V1000CT-1 benchmarkIVANOV, Kostadin N.Progress in nuclear energy (New series). 2006, Vol 48, Num 8, issn 0149-1970, 211 p.Conference Proceedings
Simple formulas for conservatively calculating the fuel rod cladding strains due to RIASAUER, G.Kerntechnik (1987). 2004, Vol 69, Num 1-2, pp 30-36, issn 0932-3902, 7 p.Article
Was the Chazhma accident a Chernobyl of the far east?SIVINTSEV, Yu. V.Atomic energy (New York, N.Y.). 2003, Vol 94, Num 6, pp 421-427, issn 1063-4258, 7 p.Article
CEA-IRSN participation in the Main Steam Line Break benchmarkROYER, E; RAIMOND, E; CARUGE, D et al.Nuclear technology. 2003, Vol 142, Num 2, pp 154-165, issn 0029-5450, 12 p.Conference Paper
Morphology change of rock-like oxide fuels in reactivity-initiated-accident simulation testsNAKAMURA, T; SASAJIMA, H; YAMASHITA, T et al.Journal of nuclear materials. 2003, Vol 319, pp 95-101, issn 0022-3115, 7 p.Conference Paper
Reactivity accident of nuclear submarine near VladivostokTAKANO, Makoto; ROMANOVA, Vanya; YAMAZAWA, Hiromi et al.Journal of Nuclear Science and Technology. 2001, Vol 38, Num 2, pp 143-157, issn 0022-3131Article
