Neutronic study for the dual use of nanofluid as a primary coolant and neutron absorber in VVER-1000 nuclear power reactor

The use of nanofluid as a primary coolant and reactivity controller in VVER-1000 reactor to enhance the heat transfer is the goal of this study. In this study, we have studied using nanofluid in the reactor for two cases: first, only using nanofluid as primary coolant, second, using nanofluid as a p...

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Veröffentlicht in:	Journal of physics. Conference series 2018-11, Vol.1133 (1), p.12047
Hauptverfasser:	Abdullah, H, Smirnov, A D, Tikhomirov, G V, Gerasimov, A S
Format:	Artikel
Sprache:	eng
Schlagworte:	Controllers Coolants Nanofluids Neutron absorbers Power reactors
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creator	Abdullah, H Smirnov, A D Tikhomirov, G V Gerasimov, A S
description	The use of nanofluid as a primary coolant and reactivity controller in VVER-1000 reactor to enhance the heat transfer is the goal of this study. In this study, we have studied using nanofluid in the reactor for two cases: first, only using nanofluid as primary coolant, second, using nanofluid as a primary coolant and reactivity controller. The simulation has been done in case of normal operation of the reactor with several concentration for the different types of nanofluid. Their effect on the neutronic field has been investigated to obtain the optimum type of nanofluid from the neutronics point of view. It can be concluded that among the four types of nanofluids Al2CO3, CuO, Cu and Ag2O for the first case Ag2O is the optimum type, however, Cu is the optimum type for the second case where the boron is absent.
doi_str_mv	10.1088/1742-6596/1133/1/012047
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subjects	Controllers Coolants Nanofluids Neutron absorbers Power reactors
title	Neutronic study for the dual use of nanofluid as a primary coolant and neutron absorber in VVER-1000 nuclear power reactor
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