Investigations of reactivity worth measurement in a fast neutron reactor with the inverse kinetics method
Shumia Wang, Haojun Zhou, Zhongxiong Bai, Xiaoqiang Fan, Yanpeng Yin

TL;DR
This paper introduces the inverse kinetics method for measuring sample reactivity worth in a fast neutron reactor, offering improved accuracy over traditional methods by reducing control influence and demonstrating consistent results with lower uncertainty.
Contribution
The paper proposes a novel inverse kinetics method for reactivity measurement that enhances accuracy and reduces uncertainty compared to traditional period methods.
Findings
Measured reactivity worth of Au, V, Be samples consistent with traditional methods.
Achieved measurement uncertainty of about 0.03, better than 0.08 with period method.
Validated the method in a highly enriched uranium fast neutron reactor.
Abstract
A new method for the measurement of sample reactivity worth in a fast neutron reactor named the inverse kinetics method is proposed in the paper. The sample reactivity worth could be obtained by measuring the reactivity step change in the process of sample fetching and placing in the delayed critical reactor. Compared with the traditional period method, the advantage is that the accuracy of reactor reactivity control will not exert any influence on the uncertainty of reactivity worth measurement. The inverse kinetics method has been used to measure the reactivity worth of {\phi}20mmx9mm Au, V and Be samples at the center of the upper surface of a highly enriched uranium fast neutron reactor, and the results are 5.17, 4.40 and 5.90 respectively, which are consistent with those obtained with the period method. The standard uncertainty of measurement of the results is about 0.03, which…
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Taxonomy
TopicsNuclear reactor physics and engineering · Fault Detection and Control Systems · Nuclear Physics and Applications
