日光温室保温被传热的理论解析及验证  被引量：31

作　　者：刘晨霞[1] 马承伟[1] 王平智[1] 赵淑梅[1] 程杰宇[1] 王明磊[2] 

机构地区：[1]中国农业大学水利与土木工程学院农业部设施农业工程重点实验室,北京100083 [2]农业部农业机械试验鉴定总站,北京100122

出　　处：《农业工程学报》2015年第2期170-176,共7页Transactions of the Chinese Society of Agricultural Engineering

基　　金：公益性行业(农业)科研专项(201203002);现代农业产业技术体系建设(CARS-25-D-04);高效设施农业标准化工程技术集成示范(201130104-4)

摘　　要：为掌握日光温室保温被的传热及其保温特性,该文运用传热学理论,建立了模拟辐射、对流以及导热等形式的传热方程,在此基础上构建了日光温室保温被这类厚型覆盖材料的传热理论模型,编制了计算机程序。该模型通过对保温被内、外表面与环境间的有效辐射、投射辐射的分析,来确定辐射换热量;根据能量平衡的原理,建立了保温被表面通过对流传热、辐射传热的传热量与内部传热量之间的关系。所建立的计算方法与程序可根据覆盖材料的红外辐射特性、导热系数、覆盖层的构造参数及工作环境等条件,定量分析保温被覆盖层的传热,计算其传热量及传热系数值。试验测试结果表明,保温被的传热量及传热系数的理论计算值与试验测定值较为一致,该文的方法为保温被一类厚型覆盖材料提供了保温性定量分析评价的理论手段。The quantity of nocturnal heat loss from conventional single skin greenhouse is high due to low thermal resistance of the single plastic materials. Therefore it is necessary for solar greenhouse that the thick covering material is covered on the single plastic covering material at night in China. There are lots of studies on heat transfer through thin cover of greenhouse, but limited reports about heat transfer through thick cover. However, the characteristics of heat transfer through thick covering materials of solar greenhouse are different from through thin covering. In order to master the heat transfer properties and thermal insulation characteristics of thick covering materials and its influencing factors, a model of heat transfer through greenhouse thick covering materials was developed based on the heat transfer theory in this paper. According to the theoretical model, a computer program was also designed and compiled to simulate the radiation, convection, conduction and other forms of heat transfer process of thick covering materials, and the quantity of heat transfer and the heat transfer coefficient were calculated. In the model there were some assumptions： the heat transfer process was regarded as a steady-state heat transfer; the sky was regarded as an infinite blackbody; the plant, ground, wall, roof inside the greenhouse were considered as one radiator which participated in radiation heat transfer with the under surface of thick cover, and the temperature, radiation emissivity and reflectivity of the radiator were the averages of theirs; the ground and the sky outside the greenhouse were also considered one radiator that participated in radiation heat transfer with the upper surface of thick cover; the surface of the thick cover, indoor ground, plant, wall, roof were regarded as grey body; the condensation heat transfer on the surface of the cover was neglected. The model used an analysis method on the effective radiation and the projection radiation of each surface to determine the quantity of ra

关 键 词：温室 传热 模型 传热系数 日光温室 保温被 模拟计算 

分 类 号：S625[农业科学—园艺学] TU111.19[建筑科学—建筑理论]