Frosting for Air Source Heat Pumps: Research, Case Studies, and Methods
Autor Mengjie Song, Long Zhangen Limba Engleză Paperback – noi 2024
Building on the theory and studies contained in the author’s previous work Defrosting for Air Source Heat Pumps, this book provides essential and advanced information for understanding and controlling frosting for these sustainable energy sources.
- Outlines the fundamentals of frosting mechanisms in different circumstances and on a variety of surfaces
- Provides a wide range of real-world case studies, including demonstrations of analysis and modeling in finned tube heat exchangers and ASHPs
- Details a huge collection of experimental and numerical data on reverse cycle defrosting, the most common defrosting methods for ASHPs
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Specificații
ISBN-13: 9780323954570
ISBN-10: 032395457X
Pagini: 258
Dimensiuni: 216 x 276 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 032395457X
Pagini: 258
Dimensiuni: 216 x 276 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
Cuprins
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