Acknowledgement
Supported by : National Research Foundation of Korea (NRF)
Journal of the Korean Physical Society
- Volume 71 Issue 9
- /
- Pages.543-547
- /
- 2017
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- 0374-4884(pISSN)
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- 1976-8524(eISSN)
DOI QR Code
Application of Compton-Suppressed Self-Induced XRF to Spent Nuclear Fuel Measurement
-
Park, Se-Hwan
(Korea Atomic Energy Research Institute)
;
- Jo, Kwang Ho (KHNP Central Research Institute) ;
- Lee, Seung Kyu (Korea Atomic Energy Research Institute) ;
-
Seo, Hee
(Korea Atomic Energy Research Institute)
;
- Lee, Chaehun (Korea Atomic Energy Research Institute) ;
-
Won, Byung-Hee
(Korea Atomic Energy Research Institute)
;
-
Ahn, Seong-Kyu
(Korea Atomic Energy Research Institute)
;
-
Ku, Jeong-Hoe
(Korea Atomic Energy Research Institute)
- Received : 2017.07.18
- Accepted : 2017.08.30
- Published : 2017.11.15
Abstract
Self-induced X-ray fluorescence (XRF) is a technique by which plutonium (Pu) content in spent nuclear fuel can be directly quantified. In the present work, this method successfully measured the plutonium/uranium (Pu/U) peak ratio of a pressurized water reactor (PWR)'s spent nuclear fuel at the Korea atomic energy research institute (KAERI)'s post irradiation examination facility (PIEF). In order to reduce the Compton background in the low-energy X-ray region, the Compton suppression system additionally was implemented. By use of this system, the spectrum's background level was reduced by a factor of approximately 2. This work shows that Compton-suppressed self-induced XRF can be effectively applied to Pu accounting in spent nuclear fuel.