木结构建筑外墙保温特性及热湿耦合传递技术的研究进展

Research Progress of Insulation and Thermal and Hygrothermal Performance of Timber Structure Walls

  • 摘要: 为了强化木结构建筑外围护墙体的节能设计工作,通过对国内外木结构建筑外墙保温及热湿性能的研究现状总结,介绍木结构建筑外墙保温最新成果,以及木结构建筑热湿耦合传递技术理论和数值模拟研究进展。通过总结前人研究经验,提出通过理论计算墙体传热系数、热惰性、蓄热系数、衰减倍数、延迟时间,建筑窗墙比,有效传热系数等参数,测试建筑外墙构件材料的基本参数、热物性参数和湿物性参数,为模拟分析提供有效的材性数据支撑;通过开展现场测量木结构建筑墙体在不同时期的传热系数,探索其不同时间段传热系数测定值与理论值的差异,实时监测木结构建筑外墙温度、湿度及含水率的变化,分析其随时间变化的趋势;利用WUFI 6.0软件模拟不同时期木结构建筑墙体的热湿耦合情况,实现准确、可靠地预测轻型木结构建筑墙体传热系数、温度、湿度和含水率等参数。

     

    Abstract: In order to improve the energy-saving design of external walls of timber structures, this paper summarizes the research status of thermal and hygrothermal performance of external walls of timber structures in China and overseas, introduces the latest achievements of thermal and hygrothermal performance of it, both with the advances in theoretical and numerical simulation of the thermal and hygrothermal performance. The paper also proposes theoretical calculation of wall heat transfer coefficient, thermal inertia, heat storage coefficient, attenuation multiple, delay time, window-to-wall ratio, effective heat transfer coefficient and other parameters; tests the basic parameters, thermal properties and wet property parameters to provide effective material data for simulation analysis; secondly, carrys out on-site measurement of heat transfer coefficient of timber structures wall at different periods, explores the measured values and theoretical values of heat transfer coefficient at different periods; Through real-time monitoring the changes in temperature, humidity and moisture content of external walls of timber structures, analysing its trend with time; using WUFI 6.0 software to simulate thermal and hygrothermal performance of timber structures in different periods, predict the trend of the heat transfer coefficient, temperature, humidity and moisture content of the timber structure walls accuratly and reliably.

     

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