Research Status and Application of AirSource Heat Pump Technology

Hongtao Meng, Jihui Tang, Haifeng Huang

Article ID: 363
Vol 1, Issue 1, 2018, Article identifier:

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Abstract: With the improvement of people's living standards, water heaters almost into the various households. In the energy-saving emission reduction has become the trend of the times today, saving energy and reducing carbon emissions is the most fashionable way of life. Air source heat pump water heaters are increasingly being used in people's lives. It is well known that it has many advantages, safety, energy saving, comfort, environmental protection, but there are some factors that affect its development and promotion. This paper mainly discusses the development history of air source heat pump technology at home and abroad, working principle, working flow, turbo technology at present stage, efficient heat exchange, and the research status of air source heat pump technology, such as new type refrigerant and dual frequency compression frequency conversion, then it discusses the application of air source heat pump technology, has the advantage, and finally discusses its application and the existence of two major problems and suggestions for improvement.


Key words:air source heat pump; water heater; energy saving and emission reduction; research status

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He Yilong. Analysis of air source heat pump technology development and

application [J]. Value Engineering, 2010, 29 (19): 93.

Tian Changqing, Shao Shuangquan, Shi Wenxing, et al. Frequency

conversion air source heat pump technology [J]. Fluid Mechanics, 2005, 33

(9): 69-70.

CAO Xiao-lin, CAO Shuang-jun, DUAN Fei, et al.Progress and prospect

of deflagration of air source heat pump [J]. Fluid Mechanics, 2011, 39 (4): 75.

Fu Shaofeng. Air source heat pump frost and defrost the research status [J].

Zhejiang Architecture, 2010, 27 (10): 61-63.

Chen Zhenkai, Hu Wenju, Jiang Huimin, et al. Restricted air source heat

pump to promote the application of technical factors of the status quo [J].

Refrigeration and air conditioning, 2012, 12 (1): 12-15.

Chaiqinhu, Ma Guoyuan. Status and progress of low temperature

adaptability of air source heat pump [J]. Energy Engineering, 2002 (5): 2-9.

Wang Fang, Fan Xiaowei. China air source heat pump technology

progress [J]. Energy Engineering, 2002 (4): 2-3.

Rao Rongshui, Gu Bo, Zhou Ze, et al. Progress of air source heat pump in

cold area [J]. Building Thermal Ventilation and Air Conditioning, 2005, 24

(4): 25-26.

Zhang Bin, Zhang Zhirong, Yang Bin. Air source heat pump system

debugging problems and countermeasures [J]. Technical exchanges, 2010, 31(5): 67-68.

Yao Yang. Simulation and analysis of winter defrosting conditions of air

source heat pump hot and cold water unit [J]. Harbin: Harbin Institute of

Technology, 2002.

Wang Yang, Jiang Huimin, Ma the best. Increase the evaporator area to

delay the air source heat pump hot and cold water unit frost test and points [J].

HVAC, 2006, 36 (7): 83-87.

Tian Changqing, Shi Wenxing, Wang Sen. Study on two - stage

compressed frequency air source heat pump in cold region [J]. Journal of

Solar Energy, 2004, 25 (3): 388-393.

Zhang Jutai. Air source heat pump hot and cold water unit in the

Jiaodong area operation effect design attempt and technical and economic

analysis [J]. HVAC, 1997, 27 (6): 17-20.

Zheng Gang, Gu Bo, Wang Zhiyi. Air-source heat pump fan

performance on the impact of frost [J]. HVAC, 2004 (9): 51-53.

Jiang Y, et al. Calculation of frost loss coefficient of air source heat

pump frost. Heating and Air Conditioning, 2000, 30 (5): 24-26 (in Chinese

with English abstract).

Wang Zhiyi, Wang Xinmin, Dong Zhiming. Defrost improvement by

heat pump refrigerant charge eompensating [J]. Applied Energy, 2008, 85

(11): 1050-1059.

Ameen F.R. Study of frosting of heat pump evaporators [J] .ASHRAE

Trans, 1991, 99 (1): 61-71.

Eckman R.L. Heat Pump Defrost Controls: a Review of Past, Present,

and Future Technology [J]. ASHRAE Trans, 1987, 93 (1): 1152-1156.

Sami S M, Tulej P J. A new design for an air source heat pump using a

ternary mixture for cold climate [J]. Heat Recovery Systems u0026 Chp,

, 15 (6): 521-529.

Shuangquan Shao, Wenxing Shi, Xianting Li, Ma Jie. Ablew Inverter

Heat Pump Operated All-year-round With Domestic Hot Water [J]. Energy

conversion and management 2004,45 (13-14): 2255.



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