The evacuated tube solar collector assisted heat pump for heating greenhouses

•The viability of using the ETC to assist heat pump for greenhouse heating was investigated.•The annual required heat energy and the provided heat of ETC were calculated.•The efficiency of the ETC was 0.45.•The payback period of the ETC was 4.1 years in winter season operation only. Using the solar...

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Bibliographic Details
Published in:Energy and buildings 2018-06, Vol.169, p.305-318
Main Authors: Hassanien, Reda Hassanien Emam, Li, Ming, Tang, Yilian
Format: Article
Language:English
Subjects:
Air temperature
Carbon dioxide
Carbon dioxide emissions
Emissions control
Energy consumption
Evacuated tube collector
Evacuation
Greenhouse
Greenhouses
Heat exchangers
Heat pump
Heat pumps
Heating
Heating system
Heating systems
Humidity
Relative humidity
Solar collectors
Solar energy
Thermal energy
Thermodynamic efficiency
Viability
Water heaters
Weather
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Summary:•The viability of using the ETC to assist heat pump for greenhouse heating was investigated.•The annual required heat energy and the provided heat of ETC were calculated.•The efficiency of the ETC was 0.45.•The payback period of the ETC was 4.1 years in winter season operation only. Using the solar energy for greenhouse heating can reduce both CO2 emissions and heating costs. Thus, the aim of this study was to investigate the performance and viability of using an evacuated tube solar collector as a solar water heater assisted an electric heat pump for greenhouse heating. The experiment has been conducted in twin experimental greenhouses installed in Kunming, China. The required energy for heating the greenhouse was calculated. Moreover, the microclimatic conditions in greenhouses under different local weather conditions, the produced thermal energy, and electric energy consumption were analyzed. The efficiency of the solar collector was determined and the effectiveness of the evacuated tube solar collector with the electric heat pump was also examined. Results revealed that the internal air temperature in the heated greenhouse exceeds the temperature inside the unheated (control) greenhouse by 2 °C–3 °C, whereas, the relative humidity decreased by 10% in the heated greenhouse. Furthermore, the thermal efficiency of the solar collector and the payback period were 0.49 and 4.1 years, respectively. In conclusion, this integration could provide more than 35% of the total required heat for greenhouse.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2018.03.072