Calculation of the temperature in the container unit with a modified design for the production of [sup.99]mo at the VVR-Ts research reactor facility

The temperature regime is calculated for two different designs of containers with uranium-bearing material for the upgraded VVR-Ts research reactor facility (IW10M). The containers are to be used in the production of [sup.99]Mo. It is demonstrated that the modification of the container design leads...

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Veröffentlicht in:	Physics of atomic nuclei 2015-12, Vol.78 (12), p.1336
Hauptverfasser:	Kazantsev, A.A, Sergeev, V.V, Kochnov, O.Yu
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis BOILING COMPUTERIZED SIMULATION Containers DESIGN Design and construction GENERAL STUDIES OF NUCLEAR REACTORS ISOTOPE PRODUCTION MODIFICATIONS MOLYBDENUM 99 Nuclear energy Nuclear power plants REACTOR SAFETY REACTOR VESSELS REDUCTION RESEARCH REACTORS T CODES URANIUM WWR TYPE REACTORS
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creator	Kazantsev, A.A Sergeev, V.V Kochnov, O.Yu
description	The temperature regime is calculated for two different designs of containers with uranium-bearing material for the upgraded VVR-Ts research reactor facility (IW10M). The containers are to be used in the production of [sup.99]Mo. It is demonstrated that the modification of the container design leads to a considerable temperature reduction and an increase in the near-wall boiling margin and allows one to raise the amount of material loaded into the container. The calculations were conducted using the international thermohydraulic contour code TRAC intended to analyze the technical safety of water-cooled nuclear power units.
doi_str_mv	10.1134/S1063778815120145
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subjects	Analysis BOILING COMPUTERIZED SIMULATION Containers DESIGN Design and construction GENERAL STUDIES OF NUCLEAR REACTORS ISOTOPE PRODUCTION MODIFICATIONS MOLYBDENUM 99 Nuclear energy Nuclear power plants REACTOR SAFETY REACTOR VESSELS REDUCTION RESEARCH REACTORS T CODES URANIUM WWR TYPE REACTORS
title	Calculation of the temperature in the container unit with a modified design for the production of [sup.99]mo at the VVR-Ts research reactor facility
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