窗墙比作为不透明双层外墙教学楼采光优化模式

Q2 Engineering

Journal of Sustainable Architecture and Civil Engineering Pub Date : 2022-06-16 DOI:10.5755/j01.sace.30.1.29744

O. C. Dewi, Kartika Rahmasari, T. Hanjani, A. Ismoyo, A. Dugar

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引用次数: 0

摘要

本研究调查了窗墙比（WWR）和遮阳系数（SC）作为被动设计策略的影响，以优化印度尼西亚德波克一栋教育建筑的不透明砖双层外墙（DSF）的日光。使用DiaLux软件模拟了一栋示例教育大楼，用于计算正常办公时间内每天因WWR而产生的日光分布。针对315.16m2的典型地板面积，研究了窗户尺寸和玻璃的最佳数量。在窗口的水平和垂直扩展方法中，WWR被认为是以10%的间隔从30%到60%。使用不同SC的玻璃材料，在不同日期的两种天空条件（晴天和标准CIE阴天）下进行了模拟。本研究的主要发现是，SC为0.42的40%WWR和SC为0.95的60%WWR分别在DSF建筑的北立面和南立面获得了最佳结果。

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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Window-to-Wall Ratio as a Mode of Daylight Optimization for an Educational Building with Opaque Double-Skin Façade

This study investigates the impact of Window-to-Wall Ratio (WWR) and Shading Coefficients (SC) as passive design strategies to optimise daylight in an opaque brick Double-Skin Façade (DSF) of an education building in Depok, Indonesia. A sample education building was simulated with DiaLux software for calculating the daylight distribution due to WWR on a daily basis during normal office hours. The optimum amount of window size and glazing were investigated for a typical floor plate area of 315.16m2. WWR was considered from 30% to 60% at 10% intervals in a horizontal and vertical expanding method of window. The simulations were performed in two sky conditions (sunny sky and standard CIE overcast sky) on different dates using glazing material of different SC. The primary findings of this study are that 40% WWR with SC 0.42 and 60% WWR with SC 0.95 achieve the best results for the north and south façade respectively of a DSF building.

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来源期刊

Journal of Sustainable Architecture and Civil Engineering Engineering-Architecture

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

12 weeks