Rim Characteristics and Their Effects on the Thermal Conductivity in High Burnup UO_2 Fuel
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概要
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Characteristics of high burnup UO2 fuel such as threshold burnup for the formation of high burnup microstructure (rim), rim average burnup and rim width were estimated and then the thermal conductivity degradation due to the porous rim region was investigated.The threshold burnup for rim formation was estimated as a function of temperature and fission rate using Rest’s model. The calculated threshold burnup, which shows a particular dependence on temperature, ranges from 40 to 50 MWd/kgU at typical fuel periphery temperatures of 400 to 600°C. In addition, the rim average burnup and the rim width were obtained by statistical analysis of the data available in open literature.To consider the additional degradation of thermal conductivity in the rim region, a formula for rim porosity was presented with the assumption that rim pores are overpressurized and that all the produced fission gases are retained in the rim pores.To estimate the thermal conductivity in the porous rim using the general correction method applicable to two-phase structure, it was assumed that the rim region consists of pores and fully dense materials composed of UO2 matrix and solid fission products. Then by combining the general model for two-phase with the rim porosity developed in the present paper and HALDEN’s thermal conductivity model, a thermal conductivity model for the porous rim region was developed.The predicted thermal conductivity shows an additional reduction of ∼20% due to the porous rim structure which would cause to increase the fuel temperature of high burnup fuel during steady-state operation and transient irradiation.
- 社団法人 日本原子力学会の論文
- 2001-01-25
著者
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Koo Yang-hyun
Korea Atomic Energy Research Institue
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LEE Byung-Ho
Korea Atomic Energy Research Institue
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SOHN Dong-Seong
Korea Atomic Energy Research Institue
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Lee Byoung-Ho
Korea Atomic Energy Research Institue