TESTING OF DIFFERENT MATERIAL TYPE PHOTOELECTRIC BATTERY AND PHOTOTHERMAL BATTERIES COMPOSED

Q3 Engineering
M. Tursunov
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Abstract

In the world, over the years, the use of hydrocarbon resources is decreasing, and their place is being replaced by ecologically clean alternative and renewable energy sources. Therefore, the world is paying a lot of attention to improved devices based on photoelectric batteries. Conducting targeted scientific research in this direction is one of the urgent issues of the present time. This article presents the results of comparing the electrical parameters of photovoltaic and photothermal batteries based on them in natural conditions. The experiments were carried out on three traditional photoelectric batteries with different materials and constructions, as well as photothermal batteries made on their basis. All batteries are installed in a mobile structure, and two planes (reflectors) that reflect sunlight are installed along the long side of the device connecting the batteries. In the same conditions, the intensity of solar radiation is increased with the help of reflectors that return light to photoelectric and photothermal batteries. On the front surface of the photovoltaic batteries, a vertical (90) fall of the sun's rays is provided. As a result, their electrical parameters changed to different values depending on the type of material and construction. Compared to traditional photoelectric batteries, photothermal batteries produced 1.3-1.4 times more electricity depending on the type of material. In the results of the experiment, data were obtained on the open circuit voltage, short circuit current and power of photoelectric and photothermal batteries in hot climate conditions. According to results, the high indicators in terms of electrical parameters are monocrystalline photoelectric and photothermal batteries based on them.
测试不同材料类型的光电电池和光热电池组成
多年来,在世界上,碳氢化合物资源的使用正在减少,它们的位置正在被生态清洁的替代能源和可再生能源所取代。因此,全世界都在关注基于光电电池的改进型器件。在这个方向上进行有针对性的科学研究是当前紧迫的问题之一。本文介绍了在自然条件下比较光伏电池和光热电池的电气参数的结果。在三种不同材料和结构的传统光电电池以及在此基础上制成的光热电池上进行了实验。所有电池都安装在移动结构中,两个反射阳光的平面(反射器)沿着连接电池的设备的长边安装。在相同的条件下,太阳能辐射的强度在反射器的帮助下增加,反射器将光返回光电和光热电池。在光伏电池的前表面上) 提供了太阳光线的下落。因此,根据材料类型和结构,它们的电气参数会变为不同的值。与传统的光电电池相比,根据材料的类型,光热电池的发电量是传统光电电池的1.3-1.4倍。在实验结果中,获得了光电和光热电池在高温气候条件下的开路电压、短路电流和功率数据。根据结果,在电学参数方面的高指标是基于它们的单晶光电和光热电池。
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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CiteScore
1.10
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0.00%
发文量
15
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