Page 52 - Defrosting for Air Source Heat Pump

P. 52

42 Defrosting for Air Source Heat Pump

[68] Boreyko B, Chen CH. Self-propelled dropwise condensate on superhydrophobic surfaces.
Phys Rev Lett 2009;103:184501.
[69] Winandy EL, Lebrun J. Scroll compressor using gas and liquid injection: experimental
analysis and modeling. Int J Refrig 2002;25:1143–56.
[70] Zhnder M, Favrat D, Hohl H, Olivier C, Perevozchikov M. High performance air-water
heat pump with extended application range for residential heating. In: 7th IEA Heat Pump
Conference, Beijing, China; 2002.
[71] Nguyen M, Hewitt N, Huang M. Performance evaluation of an air source heat pump using
economized vapor injection compressor and flash tank coupled with capillary tubes.
In: Proceedings of International Congress of Refrigeration, Beijing, China.
ICR07-E2-1110; 2007.
[72] Shao S, Wang B, Xia J, Ma G, Yan Q. Study on heat pump cycle for cold regions with two-
stage compression in one scroll compressor, In: 7th IEA Heat Pump Conference, Beijing,
China; 2002.
[73] Ma G, Zhao H. Experimental study of a heat pump system with flash-tank coupled with
scroll compressor. Energy Build 2008;40:697–701.
[74] Wang W, Ma ZL, Jiang YQ, Yao Y, Xu S, Yang Z. Field test investigation of a double-
stage coupled heat pumps heating system for cold regions. Int J Refrig 2005;28(5):672–9.
[75] Li Y, Chen G, Tang L, Liu L. Analysis on performance of a novel frost-free air-source heat
pump system. Build Environ 2011;46:2051–9.
[76] Heo J, Jeong MW, Kim Y. Effects of flash tank vapor injection on the heating performance
of an inverter-driven heat pump for cold regions. Int J Refrig 2010;33:848–55.
[77] Wang X, Hwang Y, Radermacher R. Two-stage heat pump with vapor-injected scroll com-
pressor using R410A as a refrigerant. Int J Refrig 2009;32:1442–51.
[78] Bertsch SS, Groll EA. Two-stage air-source heat pump for residential heating and cooling
applications in northern U.S. climates. Int J Refrig 2008;31:1282–92.
[79] Mei VC, Gao Z, Tomlinson JJ. Frost-less heat pump. ASHRAE Trans 2002;108:452–9.
[80] Shang PJ. Effect of pre-start fans on defrosting characteristics of air source heat pump.
Refrig Air Cond 2009;9(6):54–9.
[81] Kim Y, Tikhonov A, Shin Y, Lee J. Experimental study on high performance defrosting
heater for household refrigerator, In: 13th International Heat Conference, Sydney, Austra-
lia; 2006.
[82] Bansal P, Fothergill D, Fernandes R. Thermal analysis of the defrost cycle in a domestic
freezer. Int J Refrig 2010;33:589–99.
[83] Ozkan DB, Ozil P, Inan C. Experimental investigation of the defrosting process on domes-
tic refrigerator finned tube evaporators. Heat Transf Eng 2012;33:548–57.
[84] Melo C, Knabben FT, Pereira PV. An experimental study on defrost heaters applied to
frost-free household refrigerators. Appl Therm Eng 2013;51:239–45.
[85] Yin HJ, Yang Z, Chen AQ, Zhang N. Experimental research on a novel cold storage
defrost method based on air bypass circulation and electric heater. Energy
2012;37:623–31.
[86] Liang CH, Zhang XS, Li XW, Chen ZQ. Control strategy and experimental study on a
novel defrosting method for air-source heat pump. Appl Therm Eng 2010;30:892–9.
[87] Fu WC, Guo XM, Tao XC. Experiment on a novel defrost cycle for air source heat pump.
J Refrig 2009;30:16–24.
[88] Choi HJ, Kim BS, Kang D, Kim KC. Defrosting method adopting dual hot gas bypass for
an air-to-air heat pump. Appl Energy 2011;88:4544–55.
[89] Wang ZY, Wang XX, Dong ZM. Defrost improvement by heat pump refrigerant charge
compensating. Appl Energy 2008;85:1050–9.

47 48 49 50 51 52 53 54 55 56 57