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Effect of oxide layer growth on fuel temperature of mini fuel plates
Affiliation:1. Handong Global University, 558 Handong-ro, Heunghae-eup, Buk-gu, Pohang, Gyung-buk, 791-708, Republic of Korea;2. Korea Atomic Energy Research Institute, 1045 Daeduk-daero, Dukjin-dong, Yuseong-gu, Daejeon, 305-353, Republic of Korea;3. School of Mechanical Engineering, Kyungpook National University, 80 Daehak-ro, Buk-gu, Daegu, 702-701, Republic of Korea;1. Department of Engineering, University of Cambridge, Trumpington Street, Cambridge, CB2 1PZ, United Kingdom;2. Department of Fluids Mechanics, Technical University of Catalonia (UPC BarcelonaTech) ESEIAAT, C/ Colón 11, 08222, Terrassa, Spain;1. Southwest University of Science and Technology, Mianyang, Sichuan 621010, China;2. College of Science, National University of Defense Technology, Changsha, Hunan 410073, China;3. University of Science and Technology of China, Hefei, Anhui 230027, China;4. Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics, Mianyang, Sichuan 621900, China;1. Key Laboratory of Special Functional Aggregated Materials & Key Laboratory of Colloid and Interface Chemistry (Shandong University), Ministry of Education, School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, PR China;2. School of Chemical and Environmental Engineering, Jiujiang University, Jiujiang, Jiangxi 332005, PR China;1. North China Electric Power University, Nuclear Thermal Safety and Standardization Research Institute, Beijing 102206, China;2. Institute of Nuclear Thermal-hydraulic Safety and Standardization, North China Electric Power University, Beijing 102206, China;3. Beijing Key Laboratory of Passive Safety Technology for Nuclear Energy, North China Electric Power University, Beijing 102206, China;1. Research Reactor Institute, Kyoto University, 2 Asashiro Nishi, Kumatori-cho, Sennan-gun, Osaka, 590-0494, Japan;2. Transnuclear Tokyo, Ltd., 1-18-16, Shinbashi, Minato-ku, Tokyo, 105-0004, Japan
Abstract:The effect of the oxide layer formed on the mini fuel plates is studied to evaluate fuel centerline temperature. For a part of U-Mo fuel qualification program, mini fuel plates, double-stacked as upper and lower plates, will be irradiated in the HANARO reactor for four cycles. In the present study, fuel performance and thermal hydraulic behavior during irradiation are numerically investigated using the MCNP and TMAP codes. The power released from the mini fuel plates is estimated using the MCNP code. From the neutronic analysis results, it is observed that the lower plate at the BOC during the 1st cycle releases the highest power, and the power gradually decreases during the irradiation test. The growth of the oxide layer thickness during the irradiation test is predicted using many correlations with various pH values ranging from 5.0 to 7.0. The pH value in the HANARO reactor is controlled between 5.7 and 6.2, and the oxide layer thickness is predicted by the Boehmite model for these two pH values. The oxide layer thickness predicted using the other correlations are bounded by these two predicted values. The maximum oxide layer thickness at the end of irradiation is approx. 9 and 68 μm with pH of 5.7 and 6.2, respectively. The Pawel model with a rate factor of 16 predicts the maximum oxide layer as 25 μm. Using the predictions of the oxide layer thickness, the centerline fuel temperatures are evaluated using the TMAP code. The maximum fuel temperature is not observed when the power released from the fuel is the highest. Because the temperature rise through the oxide layer is significant, the oxide layer thickness must be considered in the fuel temperature evaluation. The oxide formation saturates with time, and the fuel reaches the maximum temperature at the end of the saturation. After the maximum fuel temperature is reached, it starts decreasing, because the power decreases.
Keywords:Oxide layer  Preparation of irradiation test  Mini fuel plate  Fuel temperature
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