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Irradiation Testing of Coated Particle Fuel at HANARO

Irradiation Testing of Coated Particle Fuel at HANARO
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摘要 TRISO (Tri-structural iso-tropic)-coated particle fuel is being developed to support the development of a VHTR (very high temperature reactor) in Korea. From August 2013, the first irradiation testing of coated particle fuel was begun to demonstrate and qualify TRISO fuel for use in the VHTR in HANARO (high-flux advanced neutron application reactor) at KAERI (Korea Atomic Energy Research Institute). This experiment is currently undergoing under an atmosphere of a mixed inert gas without on-line temperature monitoring and control combined with on-line fission product monitoring of the sweep gas. The irradiation device contains two test rods, one contains nine fuel compacts and the other five compacts and eight graphite specimens. Each compact has 263 coated particles. After a peak bum-up of about 4% and a peak fast neutron fluence of about 1.7 × 1021 n/cm2, PIE (post irradiation examination) will be carried out at KAERI's irradiated material examination facility. This paper describes the characteristics of coated particle fuels, and the design of the test rod and irradiation device for the coated particle fuels, and discusses the technical results of irradiation testing at HANARO.
出处 《Journal of Energy and Power Engineering》 2014年第10期1740-1747,共8页 能源与动力工程(美国大卫英文)
关键词 TRISO coated particle fuel fuel compact test fuel rod IRRADIATION irradiation device HANARO. 包覆颗粒 辐射测试 燃料 原子能研究所 温度监视 涂层颗粒 裂变产物 惰性气体
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参考文献15

  • 1United States Department of Energy. 2002. A Technology Roadmap for Generation IV Nuclear Energy Systems. Technical report at United State DOE Nuclear Energy Research Advisory Committee and Generation IV International Forum.
  • 2Kim, B. G., Park, S. J., Hong, S. T., Lee, B. C., Jeong, K. C., and Kim, Y. K. 2013. "Irradiation Device for Irradiation Testing of Coated Particle Fuel at HANARO." Nuclear Engineering Technology 45 (7): 941-50.
  • 3HANARO Reactor. 2014. Accessed October 17, 2014. http://hanaro.kaeri.re.kr: 444/intro/sub04/sub03.do.
  • 4Groot, S., Bakker, K., Heek, A. I., and Futterer, M. A. 2008. "Modelling of the HFR-EUlbis Experiment and Thermomechanical Evaluation." Nuclear Engineering andDesign 238 (11): 3114-20.
  • 5Futterer, M. A., Agata, E. D., Laurie, M., Marmier, A., Raison, P., Bakker, K., Groot, S., and Klaassen, F. 2008. "Next Generation Fuel Irradiation Capability in the High Flux Reactor Petten." The Nuclear Fuels and Structural Materials for the Next Generation Nuclear Reactors 2008 International Congress on Advances in Nuclear Power Plants 99 (1): 993-4.
  • 6Laurie, M., Marmier, A., Berg, G., Lapetite, J. M., Ftiterer, M. A., and Tang, C. 2011. "Results of the HFR-EU1 Fuel Irradiation of INET and AVR Pebbles in the HFR Petten." Nuclear Engineering and Design 251: 117-23.
  • 7Laurie, M., Ftiterer, M. A., Appelman, K. H., Lapetite, J. M., Marmier, A., and Berg, G. 2012. "JRC's On-Line Fission Gas Release Monitoring System in the High Flux Reactor Petten." Nuclear Engineering and Design 251 (October): 325-9.
  • 8Tang, C., Fu, X. M., Zhu, J. G., Zhao, H. S., and Tang, Y. P. 2011. "Comparison of Two Irradiation Testing Results of HTR-10 Fuel Spheres." Nuclear Engineering and Design 251 (October): 521-8.
  • 9Petti, D. A. 2005. Technical Program Plan for the Advanced Gas Reactor Fuel Development and Qualification Program. Idaho National Laboratory report.
  • 10Grover, S. B., and Petti, D. A. 2007. "Initial Irradiation of the First Advanced Gas Reactor Fuel Development and Qualification Experiment in the Advanced Test Reactor." In Proceedings of Global 2007 Advanced Nuclear Fuel Cycles and Systems, 1-9.
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