Characterizing the induced flow through the cavity of a wall solar chimney under the effects of the opening heights

IF 1.8 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Journal of Building Physics Pub Date : 2022-12-17 DOI:10.1177/17442591221140465

Y. Nguyen, V. T. Nguyen

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引用次数: 0

Abstract

Using solar chimneys in buildings can enhance the thermal insulation of the building envelope and provide sufficient ventilation and cooling. The performance of a solar chimney is strongly affected by its configurational factors. This work examines the effects of the opening heights on the flow field in the cavity of a wall solar chimney with a Computational Fluid Dynamics (CFD) model. Both cases of equal and unequal opening areas were considered. The results show that the induced flow rate increases with the opening height and gradually becomes constant as the opening height is about 2.0–3.0 and 5.0–6.0 times the air gap for heating the left wall (HLW) and the right wall (HRW) of the air cavity, respectively. Particularly, using equal inlet and outlet heights that are equal to the air gap reduces the flow rate of 27% for HLW and 85% for HRW compared to the maximum ones. The optimal design of a wall solar chimney to achieve maximum flow rate is proposed for two cases of heating, that is, (a) for HLW, equal opening heights which are twice the air gap, and (b) for RHW, the inlet height equal to the air gap, and the outlet height equal to five times the air gap.

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在开孔高度的影响下，研究了壁式太阳能烟囱腔内的诱导流特性

在建筑物内使用太阳能烟囱可以加强建筑物围护结构的隔热，并提供足够的通风和冷却。太阳能烟囱的性能受到其结构因素的强烈影响。本文采用计算流体力学(CFD)模型研究了开孔高度对壁式太阳能烟囱腔内流场的影响。考虑了相等开放区域和不相等开放区域的两种情况。结果表明:诱导流量随开孔高度的增大而增大，当开孔高度分别为加热腔左壁面气隙的2.0 ~ 3.0倍和加热腔右壁面气隙的5.0 ~ 6.0倍时，诱导流量逐渐趋于稳定;特别是，使用与气隙相等的进口和出口高度，与最大流量相比，高流量降低了27%，高流量降低了85%。针对两种采暖工况，提出了壁式太阳能烟囱实现最大流量的优化设计方案，即(a)在高冷工况下，等开口高度为气隙的两倍;(b)在低冷工况下，入口高度等于气隙，出口高度为气隙的五倍。

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

Journal of Building Physics 工程技术-结构与建筑技术

CiteScore

5.10

自引率

15.00%

发文量

审稿时长

5.3 months

期刊介绍： Journal of Building Physics (J. Bldg. Phys) is an international, peer-reviewed journal that publishes a high quality research and state of the art “integrated” papers to promote scientifically thorough advancement of all the areas of non-structural performance of a building and particularly in heat, air, moisture transfer.