Improvement of the hygrothermal efficiency numerically using CFD modeling in a full-scale ventilated room with Moroccan climates

IF 2.7 Q2 MULTIDISCIPLINARY SCIENCES
E.H. Sebbar , Y. Khattari , Y. Chaibi , T. El Rhafiki
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引用次数: 0

Abstract

The objective of this work is to examine the humidity and the heat transfer distribution in a full scale aerated room in a steady and turbulent flow regime under winter conditions and for six different Moroccan climate types. To assimilate winter conditions, the floor is considered as a heating source and is stabilized at a high temperature (TH), on the other hand, all other walls are subjected to convection heat transfer mode with an external temperature as a function of the climatic region and a surface transmission coefficient required by the Moroccan Agency of Energy Efficiency (AMEE). Four configurations are treated basing on the outlet and inlet openings position on the vertical walls for introducing and extracting air. Computational fluid dynamics was used to resolve the physical processes numerically. The developed physical model was validated on the basis of humidity and temperature distribution of the indoor environment. The primary objective of this study is to analyze the impact of ventilation on the distribution of humidity and temperature, and to seek the best configuration (size and position of entry/exit openings) that provides thermal comfort, as well as the impact of the thermal requirements imposed by the AMEE on residential thermal comfort in the studied Moroccan climatic zones. This work has allowed to find the optimal ventilation configuration during the winter season by analyzing several comfort indicators in the room.
利用 CFD 建模,在摩洛哥气候条件下的全尺寸通风房间中以数值方式提高湿热效率
这项工作的目的是研究在冬季条件下,摩洛哥六种不同气候类型的全尺寸充气房间在稳定和湍流状态下的湿度和传热分布情况。为了适应冬季条件,地板被视为热源并稳定在高温(TH)下,另一方面,所有其他墙壁都采用对流传热模式,外部温度是气候区域和摩洛哥能效局(AMEE)要求的表面传输系数的函数。根据垂直墙壁上用于引入和抽出空气的出口和入口位置,对四种配置进行了处理。计算流体动力学用于数值解析物理过程。根据室内环境的湿度和温度分布,对所开发的物理模型进行了验证。这项研究的主要目的是分析通风对湿度和温度分布的影响,并寻求提供热舒适度的最佳配置(入口/出口开口的大小和位置),以及 AMEE 对所研究的摩洛哥气候区住宅热舒适度提出的热要求的影响。这项工作通过分析室内的多项舒适度指标,找到了冬季的最佳通风配置。
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
Scientific African
Scientific African Multidisciplinary-Multidisciplinary
CiteScore
5.60
自引率
3.40%
发文量
332
审稿时长
10 weeks
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