Optimal passage size for solar collector microchannel and tube-on-plate absorbers.

Moss, R.W., Shire, G.S.F., Henshall, P., Eames, P.C., Arya, Farid and Hyde, T. (2017) Optimal passage size for solar collector microchannel and tube-on-plate absorbers. Solar Energy, 153. pp. 718-731. ISSN 0038092X

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Abstract

Solar thermal collectors for buildings use a heat transfer fluid passing through heat exchange channels in the absorber. Flat plate absorbers may pass the fluid through a tube bonded to a thermally conducting plate or achieve lower thermal resistance and pressure drop by using a flooded panel or microchannel design. The pressure drop should be low to minimise power input to the circulating pump. A method is presented for choosing the optimum channel hydraulic diameter subject to geometric similarity and pumping power constraints; this is an important preliminary design choice for any solar collector designer. The choice of pumping power is also illustrated in terms of relative energy source costs. Both microchannel and serpentine tube systems have an optimum passage diameter, albeit for different reasons. Double-pass and flooded panel designs are considered as special microchannel cases. To maintain efficiency, the pumping power per unit area must rise as the passage length increases. Beyond the optimum pumping power the rise in operating cost outweighs the increase in collector efficiency.

Item Type: Article
Keywords: Solar collector, Solar absorber, Single pass, Double pass, Thermal, Flat panel, Heat Transfer, Laminar, Turbulent, Microchannel, Serpentine, Pressure drop, Pumping power, Optimisation
Depositing User: RED Unit Admin
Date Deposited: 13 Dec 2019 13:40
Last Modified: 16 Dec 2019 13:26
URI: http://bucks.repository.guildhe.ac.uk/id/eprint/17905

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