Large eddy simulation of a buoyancy-aided flow in a non-uniform channel--Buoyancy effects on large flow structures

Yu Duan, Shuping He

    Research output: Contribution to journalArticlepeer-review

    Abstract

    It has been a long time since the ‘abnormal’ turbulent intensity distribution and high inter-sub-channel mixing rates were observed in the vicinity of the narrow gaps formed by the fuel rods in nuclear reactors. The extraordinary flow behaviour was first described as periodic flow structures by Hooper and Rehme (1984). Since then, the existences of large flow structures were demonstrated by many researchers in various non-uniform flow channels. It has been proved by many authors that the Strouhal number of the flow structure in the isothermal flow is dependent on the size of the narrow gap, not the Reynolds number once it is sufficiently large. This paper reports a numerical investigation on the effect of buoyancy on the large flow structures. A buoyancy-aided flow in a tightly-packed rod-bundle-like channel is modelled using large eddy simulation (LES) together with the Boussinesq approximation. The behaviour of the large flow structures in the gaps of the flow passage are studied using instantaneous flow fields, spectrum analysis and correlation analysis. It is found that the non-uniform buoyancy force in the cross section of the flow channel may greatly redistribute the velocity field once the overall buoyancy force is sufficiently strong, and consequently modify the large flow structures. The temporal and axial spatial scales of the large flow structures are influenced by buoyancy in a way similar to that turbulence is influenced. These scales reduce when the flow is laminarised, but start increasing in the turbulence regeneration region. The spanwise scale of the flow structures in the narrow gap remains more or less the same when the buoyancy parameter is smaller than a critical value, but otherwise it reduces visibly. Furthermore, the mixing factors between the channels due to the large flow structures in the narrow gap are, generally speaking, reduced by buoyancy.
    Original languageEnglish
    Pages (from-to)191-204
    Number of pages15
    JournalNuclear Engineering and Design
    Volume312
    Early online date3 Jun 2016
    DOIs
    Publication statusPublished - Feb 2017

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