Control rod drop hydrodynamic analysis for a pressurized water reactor

During operation of nuclear power reactors, reactivity initiated accidents can take place such as a control rod drop. If this occurs, the reactivity increases significantly and leads to an enhancement in power, fuel temperature and damage of reactor eventually. Exact assessment of these accidents de...

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Bibliographic Details
Published in:Progress in nuclear energy (New series) 2016-04, Vol.88, p.191-197
Main Authors: Rabiee, Ataollah, Atf, Alireza
Format: Article
Language:English
Subjects:
Acceleration
Accident
CFD
Computer simulation
Control rod drop
Control rods
Guide tubes
Hydrodynamic
Leakage
Navier-Stokes equations
Nuclear power generation
Nuclear reactor components
Pressurized water reactor
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Summary:During operation of nuclear power reactors, reactivity initiated accidents can take place such as a control rod drop. If this occurs, the reactivity increases significantly and leads to an enhancement in power, fuel temperature and damage of reactor eventually. Exact assessment of these accidents depends on the hydrodynamic information. In this research, it is tried to simulate the unsteady flow field around the control rod for a pressurized water reactor power plant. In order to simulate the flow field around the control rod inside the guide tube, averaged Navier–Stokes equations accompanied by the layering dynamic mesh strategy have been used. The information exchange between the two computational stationary and moving grids, the computational grid around the control rod and the grid next to the guide tube, has been taken place through the interface. It was concluded that the time duration of control rod to reach the bottom of the core depends on the leakage. It was also observed that the velocity and acceleration of the control rod would be reduced by decreasing leakage flow rate and in certain leakages, the acceleration of the control rod approaches zero due to equilibrium conditions. During this research, a correlation based on the achieved data was proposed which would provide useful information on the relation between the leakage and the time for control rod to reach the bottom of the core. •Evaluation of control rod drop into the reactor during the accident hydro-dynamically.•Simulation of unsteady flow field using averaged Navier–Stokes equations in conjunction with the layering dynamic mesh strategy.•Presentation of a correlation between the leakage and the time for control rod to reach the bottom of the core reactor.
ISSN:0149-1970
DOI:10.1016/j.pnucene.2015.12.007