Nowadays with the development of science, many new technologies are being introduced to the fabric membrane material fields. Membrane structures have been widely used in industrial storage buildings to reduce the dust pollution from open storage depots. But the thermal environment of these buildings is poor due to its light weight and low thermal resistance. It is worth exploring appropriate measures to study this problem. Therefore, a monitoring platform was established in order to study the indoor thermal environment of the industrial storage building with membrane structure. The solar radiation heat model was established using MATLAB program based on the theory of thermal transfers. And studied the impact of the outdoor temperature and solar radiation intensity in the heat transfer characteristics of membrane material. The indoor air temperature distribution of the buildings was also analyzed. The results show that solar radiation has a significant effect on the surface temperature of the fabric membrane material. The solar radiation of different intensities incident on the surface of the fabric membrane causes its surface temperature to fluctuate rapidly and significantly. Without indoor heat source, the indoor thermal environment is mainly affected by the solar radiation heat exchange of the fabric material.

如今，随着科学的发展，许多新技术被引入到织物膜材料领域。膜结构已广泛用于工业存储建筑物中，以减少露天存储仓库的粉尘污染。但是，由于它们的重量轻和热阻低，这些建筑物的热环境差。值得探索适当的措施来研究此问题。因此，建立了一个监测平台，以研究具有膜结构的工业厂房的室内热环境。基于热传递理论，使用MATLAB程序建立了太阳辐射热模型。并研究了室外温度和太阳辐射强度对膜材料传热特性的影响。还分析了建筑物的室内空气温度分布。结果表明，太阳辐射对织物膜材料的表面温度有显着影响。入射到织物膜表面的不同强度的太阳辐射会导致其表面温度迅速而显着波动。没有室内热源，室内热环境主要受到织物材料的太阳辐射热交换的影响。