Experimental Evaluation of Thermohydraulic Performance of Tubular Solar Air Heater

IF 2.4 Q3 ENERGY & FUELS
J. Benhamou, El Bachir Lahmer, M. Jami, M. Moussaoui, A. Mezrhab
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Abstract

The thermohydraulic performance of a new design solar air heater (SAH) design was examined experimentally in this paper as a trial to improve the flat-plate SAH’s efficiency. A flat-plate solar air heater (FPSAH) and a jacketed tubular solar air heater (JTSAH) having similar dimensions were constructed to compare their thermal performance efficiencies. A band of Aluminum jacketed tubes   were arranged side by side in parallel to the airflow direction to form the absorber of a jacketed tubular solar air heater (JTSAH). The experiments were accomplished at three mass flow rates (MFR)s: 0.011 kg/s. 0.033 kg/s, and 0.055 kg/s. Results revealed that the maximum temperature difference was obtained from JTSAH at 38°C in comparison to 32°C from the FPSAH at MFR of 0.011 kg/s. The thermal losses from the upper glass cover of the JTSAH were less than the same losses at the FPSAH due to the reduced absorber and glass temperatures of the JTSAH. The gained power  was higher at the JTSAH than the FPSAH. At the JTSAH, at 0.055 kg/s MFR, the maximum average thermal efficiency obtained was 81%, and the maximum average thermos-hydraulic efficiency obtained was 75.61 %. It is noted that increasing the MFR increases the thermal efficiency, also, its optimum value rises the thermos-hydraulic efficiency to a specific optimum point. The pressure drop increases with the MFR and JTSAH compared to the FPSAH
管式太阳能空气加热器热工水力性能的实验评价
为了提高平板太阳能空气加热器的效率,本文对一种新设计的太阳能空气加热器(SAH)的热工水力性能进行了实验研究。构造了具有相似尺寸的平板太阳能空气加热器(FPSAH)和夹套管状太阳能空气加热炉(JTSAH),以比较它们的热性能效率。平行于气流方向并排布置一条带铝护套的管,以形成带护套的管状太阳能空气加热器(JTSAH)的吸收器。实验在三种质量流速(MFR)下完成:0.011kg/s。0.033kg/s和0.055kg/s。结果显示,JTSAH在38°C时获得的最大温差与FPSAH在0.011 kg/s的MFR时获得的32°C的最大温差相比。由于JTSAH的吸收器和玻璃温度降低,JTSAH上玻璃盖的热损失小于FPSAH的相同损失。JTSAH的增益功率高于FPSAH。在JTSAH,在0.055kg/s MFR下,获得的最大平均热效率为81%,获得的最高平均热水力效率为75.61%。值得注意的是,增加MFR会增加热效率,其最佳值也会将热水力效率提高到特定的最佳点。与FPSAH相比,MFR和JTSAH的压降增加
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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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