Effects of Organic Solvent on Infinite Neutron Multiplication Factor of Homogeneous Plutonium Nitrate Solution System

The validity of replacing organic solvent with water in making models for criticality safety evaluation analysis of fuel solution systems was examined by the calculation of the infinite neutron multiplication factor(k inf ) for the homogeneous plutonium(IV) nitrate in aqueous and organic solvent sol...

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Bibliographic Details
Published inJournal of nuclear science and technology Vol. 35; no. 5; pp. 365 - 369
Main Authors SAKURAI, Satoshi, ARAKAWA, Takuya, OKUNO, Hiroshi
Format Journal Article
LanguageEnglish
Published Tokyo Taylor & Francis 01.05.1998
Atomic Energy Society of Japan
Taylor & Francis Ltd
Subjects
Applied sciences
dodecane
Energy
Exact sciences and technology
Fuels
infinite multiplication factor
lower limit critical concentration
nuclear criticality safety
Nuclear fuels
organic solvent
plutonium nitrate
Preparation and processing of nuclear fuels
reprocessing
tributylphosphate
Nuclear safety
Nuclear fuels
Organic solvents
Plutonium Nitrates
Reprocessing
Irradiated nuclear fuel
Criticality
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Summary:The validity of replacing organic solvent with water in making models for criticality safety evaluation analysis of fuel solution systems was examined by the calculation of the infinite neutron multiplication factor(k inf ) for the homogeneous plutonium(IV) nitrate in aqueous and organic solvent solutions. The atomic number densities of fuel solutions were determined by the density formula based on measurements. It was confirmed that k inf of plutonium(IV) nitrate-30 vol% tributylphosphate (TBP)-dodecane organic solvent system is nearly equal to that of plutonium nitrate-aqueous solution system in general. However, more strictly, the values of k inf of organic solvent system became slightly larger than the corresponding values of aqueous solution in the Pu concentration ranged up to 70g/l, which gives the opposite result to Weber's for plutonium nitrate30 vol% TBP-kerosene organic system. Consequently, the estimated lower limit critical concentration for 239 Pu(NO 3 ) 4 organic solvent system was found 1% smaller than the corresponding value for aqueous solution system. It was also found that k inf tends to increase by increasing the concentration of TBP in organic solvent.
ISSN:0022-3131
1881-1248
DOI:10.1080/18811248.1998.9733873