Coupled system for underground heating exchange and solar heat-humidity regulation in greenhouse: Experimental study and simulation analysis
文献类型: 外文期刊
第一作者: Chen, Xinge
作者: Chen, Xinge;Wu, Gang;Chen, Xinge;Liang, Hao;Chen, Xinge;Zang, Jianbin;Yang, Yunfan;Shi, Dawei;Feng, Chaoqing
作者机构:
关键词: Greenhouse; Heat and humidity control; Underground heat exchange; Composite desiccant
期刊名称:ENERGY ( 影响因子:9.0; 五年影响因子:8.3 )
ISSN: 0360-5442
年卷期: 2024 年 301 卷
页码:
收录情况: SCI
摘要: In winter, greenhouses located in mid to high latitudes are required a function of dehumidification and warming due to the low outdoor temperature. Focusing on small spires greenhouses, this study regulates the low temperature and high humidity environment inside the greenhouse and proposes a new-type of greenhouse heat and humidity regulation system by combining composite solid desiccant dehumidification with ground heat exchange system. The greenhouse internal environment is warmed and dehumidified at night by utilizing the adsorption effect of the compound dehumidifier and the sensible heat exchange between the heat exchange system in the ground and the greenhouse. Solar thermal energy is collected during the day using multi-curved tank collector (MTC) for thermal storage in the geothermal system and desiccant desorption. The rationality of pipeline layout is verified through CFD simulation, and the indoor temperature and humidity distribution during the system operation is explored. The experimental results show that the moisture adsorption capacity of the composite desiccant SG-CaCl2 for 10h is 0.511 g/g. The optimal regeneration temperature is 80-100 degrees C. This system can reduce the nighttime relative humidity of the greenhouse in winter from 96.5 % to 83.6 %, and the average indoor air temperature after warming is 12.8 degrees C. The heat exchange efficiency of the underground heating exchange system is 0.38. During the desorption phase on daytime, the maximum outlet temperature of MTC is 103.8 degrees C, and the average heat collection efficiency is 0.42. The system can effectively regulate the air environment in the greenhouse to the appropriate zone for crop growth by combining solar thermal collector technology with recyclable solid dehumidification technology.
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