CFD Investigation of Air Flow Patterns and Thermal Comfort in a Room with Diverse Heating Systems

Current Environmental Engineering Pub Date : 2019-07-31 DOI:10.2174/2212717806666190527090231

M.S.E. Sobhi, E. Khalil

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引用次数: 6

Abstract

The main focus in the current work is to investigate how diverse heating systems and their locations influence the indoor thermal environment in an exhaust- ventilated room. Four systems for heating the room were used in the current study, in which, heat was transferred by convection and radiation. The four systems were: wall and floor heating at low temperatures, Medium Temperature Radiator (M.T. radiator) heating and High Temperature Radiator (H.T. radiator). Computational Fluid Dynamics (CFD) simulation was used to investigate indoor temperature, vertical air temperature gradient and thermal comfort for each case. The ventilation rate was set to be 6 air changes per hour (ACH) entering the room through a vent over the window. The findings from the current work were that the low temperature heating systems had better temperature distributions with lower vertical Air Temperature Differences compared to high and medium temperature radiator systems. The Predicted Mean Vote (PMV) and the predicted percentage of dissatisfied (PPD) based on Fanger’s model were calculated for all cases, and were found to be in the recommended ranges.

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不同采暖系统室内气流形态与热舒适性的CFD研究

目前研究的主要重点是研究不同的供暖系统及其位置对排风室内热环境的影响。在目前的研究中，使用了四种加热房间的系统，其中热量通过对流和辐射传递。这四种系统分别是:低温墙地暖、中温暖气片(M.T. Radiator)和高温暖气片(H.T. Radiator)。采用计算流体力学(CFD)模拟研究了不同工况下的室内温度、垂直空气温度梯度和热舒适性。通风量设置为每小时6次换气(ACH)，通过窗户上方的通风口进入房间。目前的研究结果表明，与高温和中温散热器系统相比，低温供暖系统具有更好的温度分布，垂直空气温差较小。根据Fanger的模型计算了所有案例的预测平均投票(PMV)和预测不满意百分比(PPD)，发现它们都在推荐范围内。

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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Current Environmental Engineering

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