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Development of the vapor film thickness correlation in porous corrosion deposits on the cladding in PWR

Yuan Shen, Zhengang Duan, Chuan Lu, Li Ji, Caishan Jiao, Hongguo Hou, Nan Chao, Meng Zhang, Yu Zhou, Yang Gao

2022Nuclear Engineering and Technology10 citationsDOIOpen Access PDF

Abstract

The porous corrosion deposits (known as CRUD) adhered to the cladding have an important effect on the heat transfer from fuel rods to coolant in PWRs. The vapor film is the main constituent in the two-phase film boiling model. This paper presents a vapor film thickness correlation, associated with CRUD porosity, CRUD chimney density, CRUD particle size, CRUD thickness and heat flux. The dependences of the vapor film thickness on the various influential factors can be intuitively reflected from this vapor film thickness correlation. The temperature, pressure, and boric acid concentration distributions in CRUD can be well predicted using the two-phase film boiling model coupled with the vapor film thickness correlation. It suggests that the vapor thickness correlation can estimate the vapor film thickness more conveniently than the previously reported vapor thickness calculation methods.

Topics & Concepts

Materials scienceCladding (metalworking)Leidenfrost effectCoolantBoilingPorosityCorrosionVapor phaseComposite materialVapour densityWater vaporVapor pressureHeat transferNucleate boilingHeat fluxThermodynamicsChemistryPhysicsOrganic chemistryNuclear Materials and PropertiesHigh-Temperature Coating BehaviorsNuclear reactor physics and engineering
Development of the vapor film thickness correlation in porous corrosion deposits on the cladding in PWR | Litcius