日光因子模型在窗户尺寸优化和节能建筑围护结构设计中的改进

Q2 Energy

Journal of Daylighting Pub Date : 2021-07-29 DOI:10.15627/jd.2021.17

Chahrazed Mebarki, E. Djakab, A. Mokhtari, Youssef Amrane, L. Derradji, Soil Materials

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引用次数: 3

摘要

基于一种预测日光因子(DF)的新方法，利用现有的经验模型，本研究工作提出了一种优化窗户大小和玻璃孔组件提供的日光，用于位于炎热干燥气候的建筑物。新方法旨在改进DF模型，考虑新的日光预测参数，如朝向、天空条件、白天和建筑的地理位置，以填补标准DF(为阴天定义)所呈现的所有缺失点。基于非支配排序遗传算法(NSGA II)，考虑玻璃类型、空间反射率和人工照明安装的影响，考虑增强型DF模型对采暖和制冷季节的窗户尺寸进行优化。将供暖和制冷需求的结果与推荐的建筑模型进行比较，该模型适用于炎热干燥的气候，单玻璃的窗墙比为10%。然后用动态对流传热模拟验证了最优建筑模型。因此，可以实现能源需求减少48%，二氧化碳排放量减少21.5%。该方法为建筑师和工程师提供了一个同时考虑多个参数影响的更准确的日光预测模型。新提出的方法，通过改进的DF模型，给出了窗户设计的最佳解决方案，以最大限度地减少建筑能源需求，同时提高室内舒适度参数。

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Improvement of Daylight Factor Model for Window Size Optimization and Energy Efficient Building Envelope Designs

Based on a new approach for the prediction of the Daylight Factor (DF), using existing empirical models, this research work presents an optimization of window size and daylight provided by the glazed apertures component for a building located in a hot and dry climate. The new approach aims to improve the DF model, considering new parameters for daylight prediction such as the orientation, sky conditions, daytime, and the geographic location of the building to fill in all the missing points that the standard DF, defined for an overcast sky, presents. The enhanced DF model is considered for the optimization of window size based on Non dominated Sorting Genetic Algorithm (NSGA II), for heating and cooling season, taking into account the impact of glazing type, space reflectance and artificial lighting installation. Results of heating and cooling demand are compared to a recommended building model for hot and dry climate with 10% Window to Wall Ratio (WWR) for single glazing. The optimal building model is then validated using a dynamic convective heat transfer simulation. As a result, a reduction of 48% in energy demand and 21.5% in CO2 emissions can be achieved. The present approach provides architects and engineers with a more accurate daylight prediction model considering the effect of several parameters simultaneously. The new proposed approach, via the improved DF model, gives an optimal solution for window design to minimize building energy demand while improving the indoor comfort parameters.

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来源期刊

Journal of Daylighting Energy-Renewable Energy, Sustainability and the Environment

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： Journal of Daylighting is an international journal devoted to investigations of daylighting in buildings. It is the leading journal that publishes original research on all aspects of solar energy and lighting. Areas of special interest for this journal include, but are not limited to, the following: -Daylighting systems -Lighting simulation -Lighting designs -Luminaires -Lighting metrology and light quality -Lighting control -Building physics - lighting -Building energy modeling -Energy efficient buildings -Zero-energy buildings -Indoor environment quality -Sustainable solar energy systems -Application of solar energy sources in buildings -Photovoltaics systems -Building-integrated photovoltaics -Concentrator technology -Concentrator photovoltaic -Solar thermal