重庆大学学报2025,Vol.48Issue(2):74-85,12.DOI:10.11835/j.issn.1000-582X.2024.252
模块化热激活墙体性能优化与经济性分析
Optimization of efficiency and energy-saving analysis of modular thermo-activated walls
摘要
Abstract
A modular thermo-activated wall(MTAW)with specialized internal cavities for thermal diffusivity fillers was proposed to solve the problem of low-grade heat accumulation,which restricts the heat injection efficiency of thermo-activated walls.A dynamic heat transfer model of the MTAW was established.,and its performance was compared with two reference walls under typical winter conditions in a cold climate zone.The study examined the effects of the filler cavity inclination angle(θ),cavity geometry ratio(a∶b),and thermal conductivity of the filling material(λf)on energy-saving potential and economic performance.Results show that incorporating filler cavities and thermal diffusing materials significantly reduces total operational energy consumption and costs.Compared with the reference walls,when the the MTAW filler cavity's long axis is oriented transversely with an a∶b ratio of 1∶2,the total operational energy consumption decreases by 2.60%and 14.13%,respectively.Compared with the reference walls,operational costs are reduced by 12.41%and 50.04%,respectively.When the long axis of the filler cavity is inclined toward the room side,heating energy consumption initially decreases and then increases as θ rises,with optimal performance observed at θL=60°.Additionally,a∶b and λf are inversely proportional to both total operational energy consumption and costs.For example,when λf is 12λc,heating energy consumption and gas operating costs are reduced by up to 3.03%and 34.53%,respectively.关键词
热激活建筑系统/模块化构造/模拟仿真/能源效率/经济性分析Key words
thermo-activated building system/modular construction/simulation/energy efficiency/economic analysis分类
建筑与水利引用本文复制引用
陈萨如拉,陈天航,杨洋..模块化热激活墙体性能优化与经济性分析[J].重庆大学学报,2025,48(2):74-85,12.基金项目
国家自然科学基金(52208103) (52208103)
安徽省高校优秀科研创新团队(2022AH010021).Supported by National Natural Science Foundation of China(52208103),and Anhui Province University Outstanding Scientific Research and Innovation Team(2022AH010021). (2022AH010021)
