Safety margin and fuel cycle period enhancements of VVER-1000 nuclear reactor using water/silver nanofluid

In this study, the effects of selecting water/silver nanofluid as both a coolant and a reactivity controller during the first operating cycle of a light water nuclear reactor are investigated. To achieve this, coupled neutronic–thermo-hydraulic analysis is employed to simulate the reactor core. A de...

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Bibliographic Details
Published in:Nuclear engineering and technology 2018-06, Vol.50 (5), p.639-647
Main Authors: Saadati, Hassan, Hadad, Kamal, Rabiee, Ataollah
Format: Article
Language:English
Subjects:
Fuel Cycle Period
Nanofluid
Neutronic–Thermo-Hydraulic
Porous Media
Reactivity Controller
Safety Margin
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Summary:In this study, the effects of selecting water/silver nanofluid as both a coolant and a reactivity controller during the first operating cycle of a light water nuclear reactor are investigated. To achieve this, coupled neutronic–thermo-hydraulic analysis is employed to simulate the reactor core. A detailed VVER1000/446 reactor core is modeled in monte carlo code (MCNP), and the model is verified using the porous media approach. Results show that the maximum required level of silver nanoparticles is 1.3 Vol.% at the beginning of the cycle; this value drops to zero at the end of cycle. Due to substitution of water/boric acid with water/Ag nanofluid, reactor operation time at maximum power extends to 357.3 days, and the energy generation increases by about 27.3%. The higher negative coolant temperature coefficient of reactivity in the presence of nanofluid in comparison with the water/boric acid indicates that the reactor is inherently safer. Considering the safety margins in the presence of the nanofluid, minimum departure from nucleate boiling ratio is calculated to be 2.16 (recommendation is 1.75).
ISSN:1738-5733
DOI:10.1016/j.net.2018.01.015