单层腔体复合墙体热工性能模拟分析
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摘要
文章通过使用Fluent流体计算软件对单层腔体复合墙体进行定性定量的模拟分析,通过设置不同腔体厚度、腔体两侧墙体的不同材料以及腔体内外不同的壁温差,模拟分析得出腔体的最佳厚度以及其余各变量的改变对该复合墙体的热工性能造成的影响。
The article uses Fluent fluid calculation software to carry out qualitative and quantitative simulation analysis of single-layer cavity composite wall. The article sets different cavity thickness, different materials of the wall on both sides of the cavity and different wall temperature differences inside and outside the cavity, simulates and analyzes to obtain the optimal thickness of the cavity and also the impact of other variables' change on the thermal performance of the composite wall.
The article uses Fluent fluid calculation software to carry out qualitative and quantitative simulation analysis of single-layer cavity composite wall. The article sets different cavity thickness, different materials of the wall on both sides of the cavity and different wall temperature differences inside and outside the cavity, simulates and analyzes to obtain the optimal thickness of the cavity and also the impact of other variables' change on the thermal performance of the composite wall.
引文
[1]张甜甜.空气夹层流动换热特性及在建筑围护结构中的应用研究[D].哈尔滨工业大学,2016.
[2]孙丁.建筑围护结构中封闭方腔空气夹层的热工性能研究[D].南华大学,2013.
[3]霍英涛,李珠,季海峰.基于ANSYS的保温砂浆外保温系统有限元分析[J].混凝土,2016(08):118-121.
[4]陈现芬.冬冷夏热地区住宅外围护结构的节能分析[D].天津大学,2008.
[5]杨艳超.不同结构复合墙体的传热特性[J].能源与环境,2005(03):38-41.
[2]孙丁.建筑围护结构中封闭方腔空气夹层的热工性能研究[D].南华大学,2013.
[3]霍英涛,李珠,季海峰.基于ANSYS的保温砂浆外保温系统有限元分析[J].混凝土,2016(08):118-121.
[4]陈现芬.冬冷夏热地区住宅外围护结构的节能分析[D].天津大学,2008.
[5]杨艳超.不同结构复合墙体的传热特性[J].能源与环境,2005(03):38-41.