Delayed fast neutron as an indicator of burn-up for nuclear fuel elements

Delayed fast neutron as an indicator of burn-up for nuclear fuel elements

Feasibility study of burn-up analysis and monitoring using delayed fast neutrons was investigated at Missouri University of Science and Technology Reactor (MSTR). Burnt and fresh fuel elements were used to collect delayed fast neutron data for different power levels. Total reactivity varied dependin...

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Bibliographic Details
Main Authors: T. Akyurek, S.B. Shoaib, S. Usman
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Nuclear Engineering and Technology
Subjects:
fuel burn-up
spent fuel element
research reactor
non-destructive analysis
core configuration
Online Access:http://www.sciencedirect.com/science/article/pii/S1738573321002114
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spelling doaj-2c1aa6db4bb04c298f12999c6e14f7ba2021-08-06T04:21:09ZengElsevierNuclear Engineering and Technology1738-57332021-10-01531031273132Delayed fast neutron as an indicator of burn-up for nuclear fuel elementsT. Akyurek0S.B. Shoaib1S. Usman2Department of Physics, Faculty of Art and Science, Marmara University, 34722, Kadikoy, Istanbul, Turkey; Department of Mining and Nuclear Engineering, Missouri University of Science & Technology, Rolla, MO, 65401, USA; Corresponding author. Marmara Universitesi, Fen-Edebiyat Fakültesi, Fizik Bölümü, 34722, Istanbul, Turkey.Department of Civil Architectural & Environmental Engineering, Missouri University of Science & Technology, Rolla, MO, 65401, USADepartment of Mining and Nuclear Engineering, Missouri University of Science & Technology, Rolla, MO, 65401, USAFeasibility study of burn-up analysis and monitoring using delayed fast neutrons was investigated at Missouri University of Science and Technology Reactor (MSTR). Burnt and fresh fuel elements were used to collect delayed fast neutron data for different power levels. Total reactivity varied depending on the burn-up rate of fuel elements for each core configuration. The regulating rod worth was 2.07E-04 Δk/k/in and 1.95E-04 Δk/k/in for T121 and T122 core configurations at 11 inch, respectively. Delayed fast neutron spectrum of F1 (burnt) and F16 (fresh) fuel elements were analyzed further, and a strong correlation was observed between delayed fast neutron emission and burn-up. According to the analyzed peaks in burnt and fresh fuels, reactor power dependency was observed and it was determined that delayed neutron provided more reliable results at reactor powers of 50 kW and above.http://www.sciencedirect.com/science/article/pii/S1738573321002114fuel burn-upspent fuel elementresearch reactornon-destructive analysiscore configuration
collection DOAJ
language English
format Article
sources DOAJ
author T. Akyurek
S.B. Shoaib
S. Usman
spellingShingle T. Akyurek
S.B. Shoaib
S. Usman
Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
Nuclear Engineering and Technology
fuel burn-up
spent fuel element
research reactor
non-destructive analysis
core configuration
author_facet T. Akyurek
S.B. Shoaib
S. Usman
author_sort T. Akyurek
title Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
title_short Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
title_full Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
title_fullStr Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
title_full_unstemmed Delayed fast neutron as an indicator of burn-up for nuclear fuel elements
title_sort delayed fast neutron as an indicator of burn-up for nuclear fuel elements
publisher Elsevier
series Nuclear Engineering and Technology
issn 1738-5733
publishDate 2021-10-01
description Feasibility study of burn-up analysis and monitoring using delayed fast neutrons was investigated at Missouri University of Science and Technology Reactor (MSTR). Burnt and fresh fuel elements were used to collect delayed fast neutron data for different power levels. Total reactivity varied depending on the burn-up rate of fuel elements for each core configuration. The regulating rod worth was 2.07E-04 Δk/k/in and 1.95E-04 Δk/k/in for T121 and T122 core configurations at 11 inch, respectively. Delayed fast neutron spectrum of F1 (burnt) and F16 (fresh) fuel elements were analyzed further, and a strong correlation was observed between delayed fast neutron emission and burn-up. According to the analyzed peaks in burnt and fresh fuels, reactor power dependency was observed and it was determined that delayed neutron provided more reliable results at reactor powers of 50 kW and above.
topic fuel burn-up
spent fuel element
research reactor
non-destructive analysis
core configuration
url http://www.sciencedirect.com/science/article/pii/S1738573321002114
work_keys_str_mv AT takyurek delayedfastneutronasanindicatorofburnupfornuclearfuelelements
AT sbshoaib delayedfastneutronasanindicatorofburnupfornuclearfuelelements
AT susman delayedfastneutronasanindicatorofburnupfornuclearfuelelements
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