Analysis of the Thermal Characteristics and Energy performance of Electro Chromic Glazing window

Q3 Engineering
Veena Mathew, C. P. Kurian, Nevin Augustine, C. R. Srinivasan
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引用次数: 0

Abstract

Windows and shading devices occupy an essential part between inside and outside environment of buildings, for providing interior air quality and optimization of lighting and HVAC energy consumption. This paper aims to perform the thermal performance of double pane Electrochromic window (ECW) using Finite Element Method and the energy performance using the Building Information Modelling (BIM) tool. The thermal model of the ECW is simulated in COMSOL Multiphysics. Double pane glass with and without electrochromic (EC) layer is analyzed to obtain the average and maximum surface temperature between the top and bottom layers of the glazing. It is observed that the maximum temperature gradient is observed with EC layer. The energy performance with a double glazing and ECW for warm and humid climate is evaluated using eQUEST DOE tool. A 30 % reduction is observed in the annual energy consumption with an ECW compared to that with a double-glazing window. In addition, during the monthly evaluation of energy consumption, there is 10% reduction with the ECW compared to baseline. The appreciable thermal characteristics and the energy performance of the EC glazing proves it to be an alternative solution for normal window glazing in automated buildings for thermal comfort and lesser cooling load demand.
电铬玻璃窗的热特性及节能性能分析
窗户和遮阳装置是连接建筑内外环境的重要组成部分,提供室内空气质量,优化照明和暖通空调能耗。本文旨在利用有限元法对双窗格电致变色窗(ECW)的热工性能和建筑信息模型(BIM)工具的能源性能进行分析。在COMSOL Multiphysics软件中对ECW的热模型进行了模拟。对有电致变色层和无电致变色层的双层玻璃进行了分析,得到了玻璃顶层和底层之间的平均表面温度和最高表面温度。结果表明,EC层的温度梯度最大。使用eQUEST DOE工具对暖湿气候下双层玻璃和ECW的能源性能进行了评估。与双层玻璃窗相比,使用ECW可减少30%的年能耗。此外,在每月的能源消耗评估中,与基线相比,ECW减少了10%。欧共体玻璃可观的热特性和能源性能证明,它是自动化建筑中普通窗户玻璃的替代解决方案,既能提供热舒适,又能减少冷却负荷需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Mechanics
International Journal of Mechanics Engineering-Computational Mechanics
CiteScore
1.60
自引率
0.00%
发文量
17
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