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日光温室土质墙体内温度与室内气温的测定分析
引用本文:白青,张亚红,刘佳梅. 日光温室土质墙体内温度与室内气温的测定分析[J]. 西北农业学报, 2009, 18(6): 332-337
作者姓名:白青  张亚红  刘佳梅
作者单位:白青,张亚红(宁夏大学,农学院,银川,750021);刘佳梅(宁夏大学,数学与计算机科学学院,银川,750021) 
基金项目:"十一五"国家科技支撑计划项目"设施园艺结构提升及环境综合调控关键技术研究与示范",国家自然科学基金"日光温室黄瓜群体结构内太阳辐射传输模型研究" 
摘    要:为研究日光温室土质墙体的保温性及室内温度环境特征,对日光温室的后墙、地面、空气进行了不同层次的温度监测和理论分析.结果表明:日光温室后墙在传热过程中,由内向外随墙体厚度的增大传入热量逐渐减少.在后墙垂直方向内表层0.2 m处,墙体中下部温度最高,顶部和基部温度较低;3月份一日内墙体表面温度平均比地表面温度高3.3℃;夜间放热时间比地面长约3 h,且单位面积墙体比单位面积地面放热多.白天,在温室南北方向由北向南气温逐渐增高;垂直方向气温由下到上逐渐升高;夜间,在南北方向由北向南气温逐渐降低,垂直方向气温没有明显变化.无论白天夜间,日光温室内南北方向气温差异比垂直方向气温差异大.

关 键 词:日光温室  土质墙体  温度
收稿时间:2009-02-23
修稿时间:2009-07-23

Determination and Analysis of the Temperature in Soil Wall and Solar Greenhouse
BAI Qing,ZHANG Yahong and LIU Jiamei. Determination and Analysis of the Temperature in Soil Wall and Solar Greenhouse[J]. Acta Agriculturae Boreali-occidentalis Sinica, 2009, 18(6): 332-337
Authors:BAI Qing  ZHANG Yahong  LIU Jiamei
Affiliation:School of Agriculture, Ningxia University, Yinchuan 750021, China;School of Agriculture, Ningxia University, Yinchuan 750021, China;School of Mathematics and Computer Science, Ningxia University, Yinchuan 750021, China
Abstract:In order to study the thermal insulation property of soil wall and the characteristics of temperature in solar greenhouse, the experiment monitored and theoretically analysized the temperature that in the back wall, on land surface and in the air at different levels. The result showed that in the process of heat-transferring, with the increase of the thickness of the back wall, the heat reduced gradually from the inside to the out. In vertical direction 0. 2 m on surface layer, the lower part of the back wall has the highest temperature, while the top and the base part have a comparatively low temperature. The average temperature on the surface wall during a day in March is 3. 3℃ higher than that of land surface, and the heat transfer duration of the wall is about 3 hours longer than that of the land surface at night, and per unit wall area releases more heat than that of land surface. During the day, the temperature rises from north to south in north and south direction, while in vertical direction, the temperature rises gradually from bottom to top. During the night, the temperature decreases from north to south in north and south direction, and there is no obvious change in vertical direction. Regardless of daytime and at night, the temperature difference in the north and south direction is bigger than that in the vertical direction in the greenhouse.
Keywords:Greenhouse  Soil wall  Temperature
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