Hydrodynamics and heat transfer characteristics of a novel heat exchanger with delta-winglet vortex generators

The effects of vortex generators on heat transfer and pressure drop of a novel heat exchanger are investigated using computational fluid dynamics (CFD) method. The Reynolds numbers based on fin collar outside diameter varied from 600 to 2600, the attack angle from 10° to 50°, and the aspect ratio fr...

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Bibliographic Details
Published in:Chemical engineering science 2010-03, Vol.65 (5), p.1551-1562
Main Authors: Lei, Yong-Gang, He, Ya-Ling, Tian, Li-Ting, Chu, Pan, Tao, Wen-Quan
Format: Article
Language:English
Subjects:
Applied sciences
Chemical engineering
Computational fluid dynamics
Computational fluid dynamics (CFD)
Exact sciences and technology
Field synergy principle
Fluid flow
Heat and mass transfer. Packings, plates
Heat exchanger
Heat exchangers
Heat exchangers and evaporators
Heat transfer
Hydrodynamics of contact apparatus
Mathematical models
Pressure drop
Reynolds number
Vortex generator
Vortex generators
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Summary:The effects of vortex generators on heat transfer and pressure drop of a novel heat exchanger are investigated using computational fluid dynamics (CFD) method. The Reynolds numbers based on fin collar outside diameter varied from 600 to 2600, the attack angle from 10° to 50°, and the aspect ratio from 1 to 4. The numerical results are also analyzed from the view point of field synergy principle, according to which the reduction of the intersection between velocity and temperature gradient is the basic mechanism for augmentation of heat transfer. The results indicate that the enhanced configurations produce the longitudinal vortices and accelerate the flow, which result in significant augmentations of heat transfer with modest pressure drop penalties. It was found that the delta-winglet vortex generator with an attack angle of 20°and an aspect ratio of 2 provides the best integrated performance over the range of Reynolds number computed. The Colburn j-factor of the optimal configuration is shown to increase by 35.1–45.2% with a corresponding increase of 19.3–34.5% in the friction factor.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2009.10.017