Frosting for Air Source Heat Pumps
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Frosting for Air Source Heat Pumps
Research, Case Studies, and Methods
Zhang, Long; Song, Mengjie
Elsevier - Health Sciences Division
11/2024
258
Mole
Inglês
9780323954570
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Introduction
2. Freezing of sessile non-deformed water droplet under natural convection at early frosting stage in an ASHP unit
3. Freezing of sessile deformed water droplet under natural convection at early frosting stage in an ASHP unit
4. Frosting on surface of horizontal cold plate under natural convection in an ASHP unit
5. Frosting on surface of non-horizontal cold plate under natural convection in an ASHP unit
6. Frosting on surface of horizontal cold flat plate under forced convection in an ASHP unit
7. Measurement and calculation of frost characteristics on cold surfaces
8. Experimental study of frosting on surface of finned tube heat exchangers in an ASHP unit
9. Numerical study of frosting on surface of finned tube heat exchanger in an ASHP unit
10. Frosting on surface of micro-channel heat exchanger in an ASHP unit
11. Reverse cycle defrosting for multi-circuit outdoor coil in an ASHP unit
12. Conclusions and future work
2. Freezing of sessile non-deformed water droplet under natural convection at early frosting stage in an ASHP unit
3. Freezing of sessile deformed water droplet under natural convection at early frosting stage in an ASHP unit
4. Frosting on surface of horizontal cold plate under natural convection in an ASHP unit
5. Frosting on surface of non-horizontal cold plate under natural convection in an ASHP unit
6. Frosting on surface of horizontal cold flat plate under forced convection in an ASHP unit
7. Measurement and calculation of frost characteristics on cold surfaces
8. Experimental study of frosting on surface of finned tube heat exchangers in an ASHP unit
9. Numerical study of frosting on surface of finned tube heat exchanger in an ASHP unit
10. Frosting on surface of micro-channel heat exchanger in an ASHP unit
11. Reverse cycle defrosting for multi-circuit outdoor coil in an ASHP unit
12. Conclusions and future work
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Frosting; defrosting; air source heat pump; heat transfer; mass transfer; energy saving; energy efficient; droplet solidification; droplet condensation; heat exchanger; control strategy; frost thickness; surface roughness; frost density; frosting rate; reverse melting; melted frost; retained water; water film; anti-frosting; surface treatment
1. Introduction
2. Freezing of sessile non-deformed water droplet under natural convection at early frosting stage in an ASHP unit
3. Freezing of sessile deformed water droplet under natural convection at early frosting stage in an ASHP unit
4. Frosting on surface of horizontal cold plate under natural convection in an ASHP unit
5. Frosting on surface of non-horizontal cold plate under natural convection in an ASHP unit
6. Frosting on surface of horizontal cold flat plate under forced convection in an ASHP unit
7. Measurement and calculation of frost characteristics on cold surfaces
8. Experimental study of frosting on surface of finned tube heat exchangers in an ASHP unit
9. Numerical study of frosting on surface of finned tube heat exchanger in an ASHP unit
10. Frosting on surface of micro-channel heat exchanger in an ASHP unit
11. Reverse cycle defrosting for multi-circuit outdoor coil in an ASHP unit
12. Conclusions and future work
2. Freezing of sessile non-deformed water droplet under natural convection at early frosting stage in an ASHP unit
3. Freezing of sessile deformed water droplet under natural convection at early frosting stage in an ASHP unit
4. Frosting on surface of horizontal cold plate under natural convection in an ASHP unit
5. Frosting on surface of non-horizontal cold plate under natural convection in an ASHP unit
6. Frosting on surface of horizontal cold flat plate under forced convection in an ASHP unit
7. Measurement and calculation of frost characteristics on cold surfaces
8. Experimental study of frosting on surface of finned tube heat exchangers in an ASHP unit
9. Numerical study of frosting on surface of finned tube heat exchanger in an ASHP unit
10. Frosting on surface of micro-channel heat exchanger in an ASHP unit
11. Reverse cycle defrosting for multi-circuit outdoor coil in an ASHP unit
12. Conclusions and future work
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Frosting; defrosting; air source heat pump; heat transfer; mass transfer; energy saving; energy efficient; droplet solidification; droplet condensation; heat exchanger; control strategy; frost thickness; surface roughness; frost density; frosting rate; reverse melting; melted frost; retained water; water film; anti-frosting; surface treatment
