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热激活蓄能复合墙体定向注热优化与性能分析OA

Optimization and performance analysis of directional heat injection in thermally activated energy-storage composite walls

中文摘要英文摘要

针对热激活蓄能复合墙体嵌管注热效率与热扩散不匹配问题,提出一种内嵌单层树形金属翅片的定向强化注热设计(enhanced thermally activated wall,ETAW),以提升蓄能效率与节能潜力.通过动态传热模型对比分析 ETAW、传统热激活墙体(conventional thermo-activated wall,CTAW)及普通节能墙体(conventional energy-saving wall,CW)的热特性差异,结合局部敏感性分析方法探究翅片参数、气候因子及保温层厚度对经济性的影响.结果表明:ETAW在动态热行为上显著优于CTAW和CW,但性能因注热模式而异;增加主翅片高度和副翅片宽度均能有效降低ETAW总运行能耗和费用,其中副翅片宽度影响更显著;选择较小副翅片角度(如60°)和左朝向安装,运行费用和能耗可分别降低约10.9%和10.7%;保温层厚度与节能效率及经济性密切相关,严寒地区建议消减率不超过40%,夏热地区可放宽至60%.

To address the capacity mismatch between heat injection and thermal diffusion in thermally activated walls,this study proposes an enhanced thermally activated wall(ETAW)design to improve energy-storage efficiency and energy-saving potential.A dynamic heat transfer model is developed to compare the thermal performance of ETAW with that of conventional thermally activated walls(CTAW)and conventional energy-saving walls(CW).Local sensitivity analysis is conducted to investigate the economic impacts of fin parameters,climate conditions,and insulation thickness.Results demonstrate that ETAW exhibits significantly superior dynamic thermal performance relative to CTAW and CW,although the degree of improvement depends on the heat injection mode.Increases in trunk fin size and branch fin size both effectively reduce total operating energy consumption and costs,with the branch fin size exhibiting a more pronounced influence.Adopting a smaller branch-fin inclination angle(e.g.60°)and a left-oriented installation can reduce operating costs and energy consumption by approximately 10.9%and 10.7%respectively.Insulation thickness shows strong correlations with energy efficiency and economic performance;recommended reduction rates should not exceed 40%in severe cold zones and may be extended to up to 60%in hot-summer zones.

杨洋;葛月;陈萨如拉;肖秀艺;陈坤宇;陈天航

合肥工业大学 建筑与艺术学院,合肥 230601合肥工业大学 建筑与艺术学院,合肥 230601安徽建筑大学 建筑与规划学院,合肥 230601安徽建筑大学 建筑与规划学院,合肥 230601安徽建筑大学 建筑与规划学院,合肥 230601安徽建筑大学 建筑与规划学院,合肥 230601

建筑与水利

热激活建筑系统复合墙体能源效率定向注热节能经济性热扩散率

thermo-activated building systemcomposite wallenergy efficiencydirectional heat injectionenergy-economic optimizationthermal diffusivity

《重庆大学学报》 2026 (4)

1-13,13

国家自然科学基金(52208103)中央高校基本科研业务费项目(JZ2024HGTB0229)安徽省高校省级自然科学研究项目重点项目(2024AH050240). Supported by National Natural Science Foundation of China(52208103),Fundamental Research Funds for the Central Universities(JZ2024HGTB0229),and Anhui Provincial University Research Project(2024AH050240).

10.11835/j.issn.1000-582X.2026.04.001

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