Experimental Study of Hybrid Flat-Plate Solar Collector/Nocturnal Radiator for Water Heating and Cooling in Owerri, Nigeria

Journal of Energy Research and Reviews Pub Date : 2022-08-08 DOI:10.9734/jenrr/2022/v12i130292

O. Mong, C. E. Onyeocha, G. N. Nwaji, C. Ndubuisi

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引用次数: 1

Abstract

The quest for new, alternative energy sources and technologies have risen due to myriads of crises associated with fossil fuel dominated energy mix in Nigeria, in terms of supply and its adverse effect on the environment. Experimental study of hybrid flat-plate solar collector/nocturnal radiator for water heating and cooling in Owerri, Nigeria, is presented. The experimental rig consists of a single flat surface (absorber plate) made of a mild steel plate, film-coated with an acrylic resin which made the surface spectrally selective. Underneath, were arrays of copper tube risers. A sample test on acrylic resin’s coating, on a metallic substrate showed that it has high clear spectral absorptivity (low emissivity) in the solar radiation band (0.2-0.3µm) as well as low absorptivity (high emissivity) in the atmospheric window band (3-8µm). A water reservoir 2m above was connected to the system inlet header to supply water. Experimental data were harvested for days/nights through a read-out basic language programmed data logger. The experimentation were conducted under the metrological condition of Federal Polytechnic Nekede Owerri (5.49oN, 7.02oE), South-East Nigeria. The results obtained under solar heating phase showed a peak water temperature of 60⁰C at a plate temperature of about 80⁰C and a heat collection efficiency of 31%. The peak insolation was about 900W/m2 and the ambient temperature was between 27⁰C and 32⁰C throughout the diurnal phase. Also, under the nocturnal radiation phase, a cooling power of 41w/m2 was achieved during cooling on clear night and about 20w/m2 on a cloudy night. Water temperature in the range of 19⁰C to 20⁰C was recorded at temperature depression of about 5⁰C. The night sky temperature of the location was obtained in the range 10⁰C to 16⁰C for the period under study. The result shows that the system can provide substantial energy savings when incorporated into building structure, to providing hot and cold water for domestic/process use, space heating and cooling applications.

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尼日利亚奥韦里混合平板太阳能集热器/夜间散热器用于水加热和冷却的实验研究

由于尼日利亚以化石燃料为主导的能源结构在供应及其对环境的不利影响方面出现了无数危机，因此对新的替代能源和技术的寻求有所增加。介绍了尼日利亚奥韦里地区混合平板太阳能集热器/夜间散热器用于水加热和冷却的实验研究。实验装置由一个由低碳钢制成的单一平面(吸收板)组成，表面涂有丙烯酸树脂，使表面具有光谱选择性。下面是一排排的铜管立管。丙烯酸树脂涂层在金属基材上的样品测试表明，其在太阳辐射波段(0.2-0.3µm)具有高的清晰光谱吸收率(低发射率)，在大气窗口波段(3-8µm)具有低的吸收率(高发射率)。2米以上的蓄水池连接到系统进口集箱供水。实验数据通过可读出的基本语言编程数据记录仪采集。实验在尼日利亚东南部联邦理工学院Nekede Owerri (5.49oN, 7.02 e)的计量条件下进行。在太阳能加热阶段获得的结果显示，在约80⁰C的板温下，峰值水温为60⁰C，集热效率为31%。峰值日晒量约为900W/m2，整个昼夜阶段的环境温度在27⁰C和32⁰C之间。此外，在夜间辐射阶段，在晴朗夜晚冷却时的冷却功率为41w/m2，在阴天夜晚冷却时的冷却功率约为20w/m2。水温在19⁰C至20⁰C范围内，在温度下降约5⁰C时被记录下来。在研究期间，该地点的夜空温度在10⁰C至16⁰C范围内获得。结果表明，当将该系统纳入建筑结构时，可以提供大量的能源节约，为家庭/工艺使用提供热水和冷水，空间加热和冷却应用。

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Journal of Energy Research and Reviews

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