kw.\*:("spent fuel")
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Comparison of the amount of nuclides released from the spent fuel in contact with and without a compacted bentonite blockKIM, S. S; CHOI, J. W; KANG, C. H et al.Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering. 2006, Vol 41, Num 8, pp 1749-1757, 9 p.Article
How can Korea secure uranium enrichment and spent fuel reprocessing rights?ROH, Seungkook; KIM, Wonjoon.Energy policy. 2014, Vol 68, pp 195-198, issn 0301-4215, 4 p.Article
Thermal analysis for spent fuel using porous modelSHINSUKE, Matsuno; HIROAKI, Fujiwara; MASAHITO, Yamaguchi et al.Ishikawajima-Harima Giho. 2002, Vol 42, Num 4, pp 195-201, issn 0578-7904Article
The development of a three-dimensional transient CFD model for predicting cooling ability of spent fuel poolsHUNG, Tzu-Chen; DHIR, Vijay K; PEI, Bau-Shei et al.Applied thermal engineering. 2013, Vol 50, Num 1, pp 496-504, issn 1359-4311, 9 p.Article
Le cycle et les scénarios (Paris, 16 janvier 2001)Le cycle et les scénarios. Journée. 2001, 240 p.Conference Proceedings
The problem of manufacturing spent nuclear fuel storage and transportation casks in RussiaZUBKOV, A. A; FROMZEL', V. N; KAPILEVICH, A. N et al.Thermal engineering. 2002, Vol 49, Num 5, pp 369-371, issn 0040-6015Article
Standortzwischenlager mit KONVOI-Konzept = On-site interim stores based on the CONVOY conceptGEISER, H; GRABER, U; RITTSCHER, D et al.Atw. Internationale Zeitschrift für Kernenergie. 2001, Vol 46, Num 4, pp 236-244, issn 1431-5254, 7 p.Article
Cost probability analysis of reprocessing spent nuclear fuel in the USRECKTENWALD, G. D; DEINERT, M. R.Energy economics. 2012, Vol 34, Num 6, pp 1873-1881, issn 0140-9883, 9 p.Article
Status of the spent fuel interim storage facility for cernavoda NPPRADU, Maria; GLODEANU, Florin; ANDREI, Veronica et al.International symposium on nuclear energy. 1999, pp 410-413, 2VolConference Paper
Engineering-scale distillation of cadmium for actinide recoveryWESTPHAL, B. R; PRICE, J. C; VADEN, D et al.Journal of alloys and compounds. 2007, Vol 444-445, pp 561-564, issn 0925-8388, 4 p.Conference Paper
Systems analysis of spent fuel management in Japan, (I). Projection of material balances and storage needsNAGANO, Koji.Journal of Nuclear Science and Technology. 2003, Vol 40, Num 4, pp 173-181, issn 0022-3131, 9 p.Article
Evaluation of the Cs-Mo-I-O and Cs-U-I-O diagrams and determination of iodine and oxygen partial pressure in spent nuclear fuel rodsWALLE, Eric; PERROT, Pierre; FOCT, Jacques et al.The Journal of physics and chemistry of solids. 2005, Vol 66, Num 2-4, pp 655-664, issn 0022-3697, 10 p.Conference Paper
Development of fission source acceleration method for slow convergence in criticality analyses by using matrix eigenvector applicable to spent fuel transport cask with axial burnup profileKUROISHI, Takeshi; NOMURA, Yasushi.Journal of Nuclear Science and Technology. 2003, Vol 40, Num 6, pp 433-440, issn 0022-3131, 8 p.Article
Characteristics and behavior of high-burnup fuel that may affect the source terms for cask accidentsEINZIGER, Robert E; BEYER, Carl.Nuclear technology. 2007, Vol 159, Num 2, pp 134-146, issn 0029-5450, 13 p.Article
Characteristics of a Geological Disposal System for the Increasing Burn-up of Spent Nuclear Fuel in KoreaCHO, Dong-Keun; LEE, Yang; LEE, Jong-Youl et al.Journal of Nuclear Science and Technology. 2007, Vol 44, Num 10, pp 1306-1316, issn 0022-3131, 11 p.Article
Using the monte carlo coupling technique to evaluate the shielding ability of a modular shielding house to accommodate spent-fuel transportable storage casksUEKI, Kohtaro; KAWAKAMI, Kazuo; SHIMIZU, Daisuke et al.Nuclear technology. 2003, Vol 141, Num 2, pp 177-185, issn 0029-5450, 9 p.Article
Design study of a modular dry storage facility for typical PWR spent fuelIQBAL, Masood; KHAN, J; MIRZA, Sikander M et al.Progress in nuclear energy (New series). 2006, Vol 48, Num 6, pp 487-494, issn 0149-1970, 8 p.Article
Systems analysis of spent fuel management in Japan, (II). Methodologies for economic analyses of spent fuel storageNAGANO, Koji.Journal of Nuclear Science and Technology. 2003, Vol 40, Num 4, pp 182-191, issn 0022-3131, 10 p.Article
Long-term storage and shipment of spent nuclear fuelKOZLOV, Yu. V; SAFUTIN, V. D; TIKHONOV, N. S et al.Atomic energy (New York, N.Y.). 2000, Vol 89, Num 4, pp 792-803, issn 1063-4258Conference Paper
Methods and results of tests of a large model of the TUK-84 containerVASIL'EV, A. F; NETEMIN, I. F; SUBBOTIN, S. G et al.Atomic energy (New York, N.Y.). 2006, Vol 100, Num 6, pp 414-418, issn 1063-4258, 5 p.Article
SURFACE DOSE RATE CALCULATIONS OF A SPENT-FUEL STORAGE CASK BY USING MAVRIC AND ITS COMPARISON WITH SAS4 AND MCNPCHEN, Y. F; SHEU, R. J; JIANG, S. H et al.Nuclear technology. 2011, Vol 175, Num 1, pp 343-350, issn 0029-5450, 8 p.Conference Paper
Integrated waste management in a small programmeRYHÄNEN, V.Nuclear engineering and design. 1997, Vol 176, Num 1-2, pp 9-14, issn 0029-5493Article
Convective processes in spent nuclear fuel canistersMCCREERY, Glenn E; CONDIE, Keith G; CLARKSEAN, Randy C et al.International heat transfer conference. 2002, pp 663-668, isbn 2-84299-308-X, 6 p.Conference Paper
Mine-mouth power and process steam generation using fine coal waste fuelCHUGH, Y. P; PATWARDHAN, A.Resources, conservation and recycling. 2004, Vol 40, Num 3, pp 225-243, issn 0921-3449, 19 p.Article
Modulated system for radiation shielding analysis of spent fuel storage facilitiesSTANCIU, Marcela; PANTAZI, Doina; MATEESCU, Silvia et al.International symposium on nuclear energy. 1999, pp 254-258, 2VolConference Paper