[1]Okasinski M J, Graham D R, Brostow A A, et al. Process for production isotopes: US, No.7302812B2[P]. 2007.
[2]Gorgorakey V J, Bor'Yeskov G K, Kasatkeena L A, et al. A study of the homomolecular exchange of oxygen on ZnO at low temperatures[J]. Kinetics and Catalysis,1964, 5(1): 120-127.
[3]Sazonov L A, Sokolovsky V D, Bor'yeskov G K, et al. Homomolecular and isotopic exchange of oxygen on gadolinium oxide[J]. Kinetics and Catalysis, 1967, 7(2): 284-288.
[4]Yehuda L S, Durigon D D. The low-temperature isotope oxygen equilibration on oxidized palladium[J]. J Phys Chem,1969, 73(7): 2392-2396.
[5]John R B, William H D, Robert H S. Hydrogen Isotope Separation: US, No.4353871[P].1982
[6]唐有祺. 统计力学及其在物理化学中的应用[M]. 北京:科学出版社,1964:216-256.
[7]夏修龙,熊亮萍,任兴碧,等. 低温精馏氢同位素分离技术及其应用[J]. 核技术,2010,33(3):201-206.Xia Xiulong, Xiong Liangping, REN Xingbi, et al. Separation technology and application of cryogenic distillation hydrogen isotopes[J]. Nuclear Technique, 2010, 33(3): 201-206(in Chinese).
[8]Kihara H, Kambe T, Hayashida S. Method for concentrating heavy nitrogen isotope: US, No.7828939B2[P]. 2010.
[9]Mclnteer B B. Isotope separation by distillation: design of a carbon-13 plant[J]. Separation Science and Technology, 1980, 15(3): 491-508.
[10]Gasser R P H, Gowan P M, Newman D G. Carbon monoxide isotope exchange with tantalum monocarbide[J]. Trans Faraday Soc, 1968, 64: 2196-2199. |