Litcius/Paper detail

CFD analysis of the flow blockage in a rectangular fuel assembly of the IAEA 10 MW MTR research reactor

Shuang Xia, Xuhua Zhou, Hu Gaojie, Xiaxin Cao

2021Nuclear Engineering and Technology28 citationsDOIOpen Access PDF

Abstract

When a nuclear reactor with rectangular fuel assemblies runs for a long time, impurities and debris may be taken into coolant channels, which may cause flow blockage, and the blocked fuel assemblies might be destroyed. Therefore, the purpose of this study is to perform a thermal-hydraulic analysis of a rectangular fuel assembly by STAR-CCM+, under the condition of one subchannel with 80% blockage ratio. A rectangular fuel assembly of the International Atomic Energy Agency (IAEA) 10 MW material test reactor (MTR) is chosen. In view of the gasket material taken into the coolant channel is close to the single side of the coolant channel, in the flow blockage accident of the Oak Ridge Research Reactor (ORRR), a new blockage category called single side blockage is attempted. The blockage positions include inlet, middle and outlet, and the blockage is set as a cuboid. It is found by simulations that the blockage redistributes the mass flow rate, and large vortices appear locally. The peak temperature of the cladding is maximum, when the blockage is located at the single side of the coolant channel inlet, and no boiling occurs in all blockage cases. Moreover, as the height of the blockage increases, the damage caused by the blockage increases slightly.

Topics & Concepts

CoolantNuclear engineeringThermal hydraulicsInletOak Ridge National LaboratoryMaterials scienceCladding (metalworking)BoilingNuclear fuelMechanicsComputational fluid dynamicsFlow (mathematics)Environmental scienceChemistryEngineeringMechanical engineeringNuclear physicsHeat transferPhysicsComposite materialOrganic chemistryHeat transfer and supercritical fluidsNuclear Engineering Thermal-HydraulicsNuclear Materials and Properties
CFD analysis of the flow blockage in a rectangular fuel assembly of the IAEA 10 MW MTR research reactor | Litcius