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Subcriticality Evaluation Using the Modified Neutron Source Multiplication Method  

Yoon, Seok-Kyun (Department of Nuclear Engineering, Kyung-Hee University)
Naing, Win (Department of Nuclear Engineering, Kyung-Hee University)
Kim, Myung-Hyun (Department of Nuclear Engineering, Kyung-Hee University)
Publication Information
Journal of Energy Engineering / v.16, no.4, 2007 , pp. 155-163 More about this Journal
Abstract
To insure nuclear reactor safety, the reactivity of control rods should be calculated by measuring the criticality of reactor core and it is regularly performed during the annual physics test period. Also, the core criticality should be monitored during the start-up operation to avoid reactivity induced accidents. Many research works on control rod reactivity measurement and subcriticality measurement have been accomplished throughout the world for decades and recently a new method named "Modified Neutron Source Multiplication Method (MNSM)" was proposed in Japan which is known to be improved overcoming limitations of traditional Neutron Source Multiplication Method (NSM). In this study, MNSM was tested in calculation of subcriticalities and in evaluation of application validity using the educational reactor in Kyung Hee University, AGN-201. For this study, a revised nuclear data library and a neutron transport code system TRANSX - PARTISN were established. Correction factors for various control rod positions were produced using the k-effective values and the corresponding flux distributions and adjoint flux distributions. Experimental values of the core criticality were obtained using the neutron count rates of the BF3 proportional counters. The results showed that the expected reactivity worth of control rods by MNSM agreed well with the theoretical values and the correction factors contributed much for this purpose.
Keywords
Subcriticality; Research reactor; Source multiplication method; Correction factors;
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