Using smart glazing for reducing energy consumption on existing office building in hot dry climate

Q2 Engineering

HBRC Journal Pub Date : 2020-01-01 DOI:10.1080/16874048.2020.1794226

A. M. Nageib, Abbas El-Zafarany, Mohamed Helmy El-Hefnawy, F. Mohamed

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引用次数: 14

Abstract

ABSTRACT Office buildings in Upper Egypt suffer from high temperature in summer due to solar radiation of this extreme hot arid climatic region. The effect of smart glass on reducing energy consumption in office buildings is well studied in temperature climates but rarely addressed for this Region. This paper aims to compare different types of glazing to define which achieves a better balance between reducing cooling energy consumption and daylight saving. Six types of glazing were simulated on the main office building of Sohag governorate – Egypt. The simulation was carried out for all orientations. Energy Plus-Design Builder simulation tool has been used to study the effect of smart glass on increasing energy efficiency. The window area-to-floor ratio was 8%, 16%, 24% and 32%. Simulation results show that smart glazing is more effective than traditional windows. Electro-chromic glass achieved the best results in reducing cooling energy consumption for window area of 32%. Also, achieving a significant reduction in cooling loads up to 43% in East orientation, 46% in South orientation and 45% in West orientation. On the other hand, it reduced glare in the East and West orientation by 64%. And, it reduced consumption of lighting energy by 60%, 61% and 57% in East, South and West, respectively. The effect of Gaso-chromic was increased when the window area ratio increased to 32%. For window area 32%, Gaso-chromic achieved the results of light energy similar to Electro-chromic.

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在干热气候下使用智能玻璃降低现有办公楼的能耗

摘要：由于极端炎热干旱的气候区域的太阳辐射，上埃及的办公楼在夏季遭遇高温。智能玻璃在降低办公楼能耗方面的作用在温度气候下得到了很好的研究，但很少在该地区得到解决。本文旨在比较不同类型的嵌装玻璃，以确定哪种嵌装玻璃能在降低制冷能耗和夏令时之间实现更好的平衡。在埃及索哈格省的主要办公楼上模拟了六种类型的玻璃。对所有方向进行了模拟。Energy Plus Design Builder模拟工具已用于研究智能玻璃对提高能源效率的影响。窗户面积与地板的比例分别为8%、16%、24%和32%。仿真结果表明，智能玻璃窗比传统窗户更有效。电致变色玻璃在降低窗户面积32%的冷却能耗方面取得了最佳效果。此外，东向、南向和西向的冷负荷分别显著降低了43%、46%和45%。另一方面，它将东西方向的眩光降低了64%。东部、南部和西部的照明能耗分别降低了60%、61%和57%。当窗口面积比增加到32%时，气致变色的效果增加。对于32%的窗口面积，Gaso-chromatic实现了类似于电致变色的光能结果。

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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