评估大型空间大厅内基于光伏的太阳能烟囱辅助烟囱通风：案例研究

IF 3.2 3区工程技术 Q2 CONSTRUCTION & BUILDING TECHNOLOGY

Indoor and Built Environment Pub Date : 2023-12-05 DOI:10.1177/1420326x231220527

Tong Wei, Hanyu Li, Runnan Sun, Chuck Wah Yu, Xilian Luo

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引用次数: 0

摘要

基于光伏(PV)的太阳能烟囱可以帮助大型空间大厅内的烟囱通风。本研究以一综合型办公楼的光伏太阳能烟囱为例，探讨加强烟囱通风的措施。建立了计算流体力学(CFD)模型，研究了内热源、烟囱进口位置、太阳能热增益和光伏(PV)布置对通风量的影响。结果表明，基于pv的太阳能烟囱可以辅助烟囱通风，并在过渡季节有效地为被占用区域提供合适的室内环境。提高烟囱进风口位置有利于提高通风量和冷却性能。进风口位置从0.2 m高度增加到3.8 m高度，通风量可增加5%。从PV背面获得热量是提高通风量的重要方法。200w /m2的热增益可导致通风量增加16.4%。而且，热源位置越低，通风效率越高。本研究为优化设计方案以提高自然通风效率提供了基本策略。

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Evaluation of photovoltaic-based solar chimney–assisted stack ventilation within a large space hall: A case study

Photovoltaic (PV)-based solar chimneys could assist stack ventilation within a large space hall. This study considered a comprehensive office building with a PV-based solar chimney as a case study to explore measures for enhancing stack ventilation. A computational fluid dynamics (CFD) model was established, and the influences of the inner heat source, chimney inlet position, solar heat gain and photovoltaic (PV) arrangement on the ventilation rate were investigated. The results revealed that PV-based solar chimneys could assist stack ventilation and would effectively provide a suitable indoor environment for occupied areas during the transitional season. Raising the chimney inlet position is conducive to improving the ventilation rate and cooling performance. The increase in the inlet position from a height of 0.2 m to 3.8 m would increase the ventilation rate up to 5%. The heat gain from the PV backside is an important method of enhancing the ventilation rate. A 200 W/m2 heat gain can lead to a 16.4% increase in ventilation. Moreover, the lower the heat source location, the higher the ventilation efficiency. This study provides basic strategies for optimising design schemes to improve natural ventilation efficiency.

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来源期刊

Indoor and Built Environment 环境科学-工程：环境

CiteScore

6.40

自引率

25.00%

发文量

130

审稿时长

2.6 months

期刊介绍： Indoor and Built Environment publishes reports on any topic pertaining to the quality of the indoor and built environment, and how these might effect the health, performance, efficiency and comfort of persons living or working there. Topics range from urban infrastructure, design of buildings, and materials used to laboratory studies including building airflow simulations and health effects. This journal is a member of the Committee on Publication Ethics (COPE).