Experimental study on the melted frost influence on the metal energy storage during an air source heat pump defrosting

Experimental study on the melted frost influence on the metal energy storage during an air source heat pump defrosting

•Four cases were conducted with two- and three-working-circuit outdoor coils.•The melted frost effect was quantitatively evaluated with eight parameters.•Defrosting efficiency increased from 48.34% to 58.79% after outdoor coil enlarged.•The MES effect was changed from 0.77% to 1.49% after outdoor co...

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Bibliographic Details
Published in:Energy and buildings Vol. 214; p. 109809
Main Authors: SONG, Mengjie, MAO, Ning
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-05-2020
Elsevier BV
Subjects:
Air source heat pump
Circuits
Coils
Defrosting
Defrosting efficiency
Energy conservation
Energy storage
Frost
Heat exchangers
Heat pumps
Melted frost
Metal energy storage
Metals
Multi-circuit heat exchanger
Optimization
Reverse cycle defrosting
Thawing
Air source heat pump
Melted frost
Multi-circuit heat exchanger
Reverse cycle defrosting
Metal energy storage
Defrosting efficiency
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Summary:•Four cases were conducted with two- and three-working-circuit outdoor coils.•The melted frost effect was quantitatively evaluated with eight parameters.•Defrosting efficiency increased from 48.34% to 58.79% after outdoor coil enlarged.•The MES effect was changed from 0.77% to 1.49% after outdoor coil enlarged.•Future work around defrosting topic was discussed at different aspects. When an air source heat pump works at reverse cycle defrosting mode, the metal temperature of its indoor coil decreases and that of outdoor coil increases. The energy storage of two coils’ metal at heating mode would influence the system defrosting efficiency. For a vertically installed outdoor coil having multiple circuits, meanwhile, the melted frost downwards flowing from upside circuit(s) also delay the defrosting process of downside circuit(s). To quantitatively evaluate the influence from two parameters, metal energy storage and melted frost, four experimental cases were designed and carried out in this study, based on a specially made three-circuit outdoor coil. Three circuits are working at the frosting mode, while two and three are used at the defrosting mode in four cases. As concluded, the melted frost influence on defrosting efficiency and metal energy storage effect would be increased from 4.87% to 10.45% and from 0.77% to 1.49%, respectively, after the outdoor coil changed from two- to three-working circuit. Outcomes of this study are meaningful for the structure optimization and energy saving of air source heat pump units at defrosting mode.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2020.109809