期刊
ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS
卷 44, 期 4, 页码 8959-8979出版社
TAYLOR & FRANCIS INC
DOI: 10.1080/15567036.2022.2128472
关键词
Chinese solar greenhouse; active solar heating system; heat collection efficiency; energy saving efficiency
资金
- Regional Innovation Capability Guidance Program of Shaanxi Province Science and Technology Department [2021QFY08-04]
- Technical System Project of National Bulk Vegetable Industry, Ministry of Agriculture, PR China [CARS-23-C05]
- Shaanxi Province Science and Technology Innovation Drive Project Advantageous Industrial Technology Research and Development [NYKJ-2020-YL-08]
An active solar heating system was developed and successfully increased the indoor temperature of greenhouses, promoting the growth of tomato plants.
Maximizing the use of solar energy to increase the indoor temperature of greenhouse is of great significance to the green and energy-saving intensive greenhouse production in China. In this study, an active solar heating system (ASHS) was developed and analyzed, consisting of five solar water heaters equipped with vacuum tube solar collectors, one heat storage tank and heating system including booster pump and heating pipes. During the day, the water was heated in the solar collectors and stored in tanks before being placed into circulation in the heating pipes to distribute the heat to the aerial and root zones of plants. To evaluate the performance of ASHS and the feasibility of practical application, climate and plant growth parameters were monitored in two Chinese Solar Greenhouses (CSGs) located in Yangling, China. Results revealed that under the operating condition with the flow rate of 5.4 L/min, the effective heat collection, average heat collection efficiency and energy-saving efficiency of ASHS were 1.9 MJ/(m(2)center dot h), 64% and 84%, respectively. The coefficient of performance (COP) was between 4.5 and 6.2, and the payback period was 12.0 years. Furthermore, the results revealed that the ASHS successfully provided 76% of its annual heating needs, heated the CSG for 4 months and maintained the nocturnal temperature above 8 celcius. The actual application effect proved that it increased average indoor air temperature by 2.2 celcius and substrate temperature by 3.3 celcius in heated greenhouse. The growth rate of tomato plant height in the heated greenhouse was 0.7427 cm/d, greater than that in the unheated greenhouse (0.6 cm/d). The novel system proposed in this study adopting particular location enables the rise of the ambient and the substrate temperatures with lower energy consumption, improvement of the environmental conditions in CSG, and a more suitable growing environment for plants in the cold season.
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