温室内密闭小环境降温除湿效果及蒸腾水循环利用

    Effects of cooling, dehumidification and transpiration water recycling of closed micro-environment in greenhouse

    • 摘要: 为探索密闭小环境对其内部温湿度及蒸腾水循环利用的影响,该研究对温室内盆栽做全密闭处理,基于“温差”热交换原理,通过调控盆栽小环境内的温湿度,降温除湿的同时回收利用蒸腾水。结果表明,利用“水-气温差”对密闭盆栽进行降温除湿回收蒸腾水,降温除湿效果显著,正午12:30左右,相比密闭对照盆栽,温度降低3℃左右,相对湿度下降7%;其他时间降温除湿效果虽不及正午,但白天平均降温2.4℃,相对湿度平均下降5%,蒸腾水最终都回收到U型管中。而利用“地-气温差”进行热交换、利用气泵使水汽循环,对密闭盆栽进行降温除湿回收利用蒸腾水。试验过程中,夜晚的降温除湿效果不显著。白天气泵运行期间,地-气热交换处理盆栽相对于密闭对照盆栽温度平均下降2.5℃左右;相对湿度平均下降10%。正午时分,降温除湿效果最为显著,相比密闭对照盆栽气温降5℃以上,与温室内的温差只有1.5℃;此时湿度下降15%。降温后凝结而成的水珠在高速气流的带动下重复利用于盆栽。由此可见,利用水-气、 地-气温差对密闭盆栽小环境可实现降温、除湿并实现蒸腾水的回收利用。

       

      Abstract: In this study, temperature and humidity inside closed micro-environment were regulated through setting completely closed pot in greenhouse, dehumidifying, cooling air and recycling transpiration water within the closed pot based on energy exchange due to temperature disparity. The results showed that effects of dehumidifying and cooling were remarkable based on water-air temperature disparity. Compared to the closed check pot, the temperature of treated pot decreased by 3℃ and relative humidity decreased by 7% around 12:30. In other time, effect of dehumidifying and cooling was not so significant. However, temperature, relative humidity decreased on average by 2.4℃ and 5% in the daytime, respectively, with transpiration water gathered in a U-tube. Based on energy exchange due to soil-air temperature difference, air was pushed through soil using air pump to dehumidify, cool air and recycle transpiration water in the closed micro-environment. During the experiment, cooling effect was not significant at night, compared to the closed check pot, temperature and relative humidity decreased meanly by 2.5℃ and 10%, respectively, in the daytime. Around 12:30, dehumidifying and cooling were very significant; with temperature decreased 5℃ compared to the check pot, temperature difference inside and outside the micro-environment was only 1.5℃, relative humidity reduced by 15%. Condensed water from cooling was pushed by high speed air flow to the pot. In general, cooling and dehumidifying can be realized through utilization of temperature difference between water-air and soil-air in the micro-environment and transpiration water could be recycled as well.

       

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