Augmentation of single-phase forced convection heat transfer in tightly arrayed rod bundle with twist-vane spacer grid

•Convection heat transfer of water flow in tightly arrayed rod bundle with twist-vane spacer grid was investigated.•Circumferential and axial distributions of rod-wall temperatures were measured.•Downstream of spacer grid, rod-wall temperature toward tip of twist-vane exhibited the lowest value.•Twi...

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Bibliographic Details
Published in:Experimental thermal and fluid science 2016-09, Vol.76, p.185-192
Main Authors: Lee, Chi Young, In, Wang Kee, Lee, Jun Kyoung
Format: Article
Language:English
Subjects:
Augmentation
Bundling
Convection
Convection heat transfer
Correlation
Enhancement
Fluid dynamics
Fluid flow
Heat transfer
Spacers
Tightly arrayed rod bundle
Twist-vane spacer grid
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Summary:•Convection heat transfer of water flow in tightly arrayed rod bundle with twist-vane spacer grid was investigated.•Circumferential and axial distributions of rod-wall temperatures were measured.•Downstream of spacer grid, rod-wall temperature toward tip of twist-vane exhibited the lowest value.•Twist-vane spacer grid enhanced remarkably the convection heat transfer in tightly arrayed rod bundle.•New correlation for the prediction of convection heat transfer enhancement was proposed. The investigation on the augmentation of convection heat transfer of water rod bundle flow was performed experimentally. The 4×4 tightly arrayed rod bundle with narrow gap was tested and its P/D (Pitch-to-Diameter ratio) was ∼1.08. As the spacer grid, the twist-vane spacer grid was used. The axial mean bundle-flow velocity was U∼1.0m/s, and the corresponding Reynolds number was ∼10,400. Circumferential and axial distributions of rod-wall temperatures were measured. Upstream of twist-vane spacer grid, the rod-wall temperature at the subchannel center was measured to be lower than that at the rod-gap center. Downstream of twist-vane spacer grid, the rod-wall temperature toward the tip of twist-vane was lowest, which might be due to the deflected flow caused by twist-vane. The twist-vane spacer grid enhanced significantly the convection heat transfer in the tight-lattice rod bundle, and its maximum enhancement value was ∼77% near the downstream of spacer grid. Based on the present experimental data, the previous correlations of Nusselt number enhancement were compared and assessed. Then, the enhancement correlation of convection heat transfer for the twist-vane spacer grid in the tightly arrayed rod bundle was proposed.
ISSN:0894-1777
1879-2286
DOI:10.1016/j.expthermflusci.2016.03.006