A One-dimensional Analysis and Optimum Air Flow Rate of a Triple-Pass Solar Air Heater

2021 24th International Conference on Mechatronics Technology (ICMT) Pub Date : 2021-12-18 DOI:10.1109/ICMT53429.2021.9687144

N. Phu, Nguyen Van Hap, Phan Thanh Nhan, Huynh Phuoc Hien

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引用次数: 1

Abstract

Renewable energy conversion of solar energy to hot air is a feasible and sustainable solution in the trend of energy saving and environmental protection. In this work, a 1D mathematical model is reported and solved using the control volume method to investigate the distribution of seven temperatures in the triple pass flat plate solar air heater (SAH). A compact solver for predicting local temperatures of a multiple-pass SAH has been rarely found in the open literature. The collector parameters are fixed while the mass velocity of the air is varied from 0.0121 to 0.07246 kg/m2-s. The results of temperature distribution analysis show that the absorber plate temperature reaches a maximum in the center of the plate which is different from that of a double pass solar air collector. When the air flow rate is large, the upper glass is no longer able to transfer heat to the air, so the efficiency of the triple pass collector decreases. It is concluded the pertinent air flow rate of 0.04 kg/m2-s to obtain the highest effective efficiency of 64%. The present study is expected to develop multi-parametric study and apply finned, baffled or ribbed air channels.

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三道太阳能空气加热器的一维分析及最佳风量

太阳能热空气转化为可再生能源是节能环保趋势下可行且可持续的解决方案。本文建立了一个一维数学模型，并利用控制体积法求解了三道平板太阳能空气加热器(SAH)中七个温度的分布。在公开文献中很少发现用于预测多道次SAH局部温度的紧凑求解器。当空气质量速度在0.0121 ~ 0.07246 kg/m2-s范围内变化时，集热器参数固定。温度分布分析结果表明，吸收板的温度在板的中心达到最大值，这与双通道太阳能空气集热器的温度不同。当空气流量较大时，上部玻璃不再能够将热量传递给空气，因此三通集热器的效率降低。结果表明，适宜的空气流速为0.04 kg/m2-s时，可获得64%的最高有效效率。本研究有望发展多参数研究，并应用于鳍状、挡板或肋状风道。

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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2021 24th International Conference on Mechatronics Technology (ICMT)

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