带管式太阳能吸收器的双通道太阳能空气加热器的热性能

IF 2.4 Q3 ENERGY & FUELS
N. Hussein, Sabah T Ahmed, A. Ekaid
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引用次数: 5

摘要

在本研究中,通过实验和数值研究了用新的太阳能吸收器取代传统的太阳能吸收器对双程太阳能空气加热器热性能的影响。已经介绍了三种配置,第一种配置是具有平板太阳能吸收器(DPSAHWFP)的双程太阳能空气加热器,用于比较,第二种配置是带有管状吸收器的双程太阳空气加热器,管状吸收器包括一组垂直于气流方向安装的管(DPSAHWT-1),第三种配置是具有管状吸收器的双通太阳能空气加热器,该管状吸收器包括平行于气流方向安装的一组管(DPSAHWT-2)。实验是在室内条件下进行的,热通量恒定,等于1000 W/m2,空气质量流量不同(0.01–0.03 kg/s)。结果表明,与空气温度的升高相比,空气质量流量具有显著的影响,因此,太阳能空气加热器的热性能与空气质量流量的增加成正比。此外,实验和数值结果表明,对于所有的空气流速。与其他型号相比,(DPSAHWT-2)具有更高的热性能,在其他型号中,最大有效效率为0.03 kg/s,相当于80.9%。此外,(DPSAHWT-2)的效率分别比DPSAHWFP和DPSAHWT-1高4.2%和9.8%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal Performance of Double Pass Solar Air Heater With Tubular Solar Absorber
In this investigation, the effect of replacing the conventional solar absorber with a new solar absorber on the thermal performance of a double-pass solar air heater has been studied experimentally and numerically.  Three configurations have been introduced, the first configuration is a double pass solar air heater with a flat plate solar absorber (DPSAHWFP) for the aim of comparison, and the second configuration is a double pass solar air heater with a tubular absorber that includes a set of tubes which are fitted perpendicularly to the direction of airflow (DPSAHWT-1),  and the third configuration is double-pass solar air heater with a tubular absorber that involves set of tubes which are fitted in parallel to the direction of airflow (DPSAHWT-2). The experiments have been carried out under indoor conditions at a constant heat flux equal to 1000 W/m2 and different air mass flow rates (0.01– 0.03 kg/s). The results revealed that the air mass flow rate has a substantial impact compared to the rise in air temperature, hence, the thermal performance of solar air heater is directly proportional to increase air mass flow rate. In addition, the experimental and numerical outcomes indicated that for all air flow rates. The (DPSAHWT-2) offers higher thermal performance as compared to other models, where the maximum effective efficiency has been obtained at 0.03 kg/s equal to 80.9 %. Moreover, (DPSAHWT-2) is more efficient than DPSAHWFP and DPSAHWT-1 by 4.2 % and 9.8 % respectively.
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来源期刊
CiteScore
4.50
自引率
16.00%
发文量
83
审稿时长
8 weeks
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