Experimental study on the rhizosphere-air heating with direct-expansion solar-assisted heat pump of tomato in greenhouse

HE Yongkang;YANG Qichang;ZHANG Yi;FANG Hui;KE Xinglin;WEI Xiaoran;Institute of Environment and Sustainable Development in Agriculture/Key Laboratory of Energy Conservation and Waste Management of Agricultural Structures of Ministry of Agriculture and Rural Affairs,Chinese Academy of Agricultural Sciences;

HE Yongkang%YANG Qichang%ZHANG Yi%FANG Hui%KE Xinglin%WEI Xiaoran%Institute of Environment and Sustainable Development in Agriculture/Key Laboratory of Energy Conservation and Waste Management of Agricultural Structures of Ministry of Agriculture and Rural Affairs,Chinese Academy of Agricultural Sciences

large-span greenhouse;;direct-expansion solar-assisted heat pump;;greenhouse heating;;coefficient of performance;;energy conservation;;operational mode;;rhizosphere heating

In order to increase the heat energy utilization efficiency of direct-expansion solar-assisted heat pump(DXSAHP),a mechanism was designed by using DX-SAHP as collection system and rhizosphere-air heating as releasing system.The heating effect,coefficient of performance(COP)and heat-collecting efficiency were tested.The operation mode under different weather conditions was optimized.The results showed that:Under the conditions of consecutive cloudy days and consecutive sunny days,the heat utilization efficiency of the heat releasing system was higher than97.2% and 92.7%correspondly;Under different weather conditions,the rhizosphere temperature and air temperature in the experimental area were above 17.9 and 11.6℃respectively,which were 1.5 and 3.6℃ higher than those of the control area;The relative humidity in the experimental area was below 90.8%,which was 3.2%lower than that of the control area;The energy-saving rate Rof the whole system under different weather conditions was higher than 47.2%,and the coefficient of performance(COPtotal)was above 1.9;Under different weather conditions,the heat collecting system could reach the set temperature objective for heating within the set time while keep the coefficient of heatcollecting performance(COPc)above 2.3 and the heat-collecting efficiencyμhigher than 149.6%;Additionally,from9:30 am to 11:30 am,with the increase in solar radiation intensity,the COPc of the heat collecting system also increased from 1.4 to 3.0;from 11:30 am to 14:50,the COPcof the heat-collecting system was above 3.8;After 15:10 when the temperature of water in the thermal storage tank was higher than 47℃,the COPcfinally dropped from 3.2 to0.8.In conclusion,this study clarified that the DX-SAHP heating rhizosphere-air could not only improve the heating effect of greenhouse,but also improve the heat energy utilization rate and the COPcof the DX-SAHP.Additionally,it could realize the greenhouse energy conservation goal by using the operating mode of DX-SAHP,which could be adjusted in accordance with variations in solar radiation intensity and the water temperature in the tank.