Exergy analysis of a solar PV driven DC refrigerator for different ambient conditions

2016 International Conference on Energy Efficient Technologies for Sustainability (ICEETS) Pub Date : 2016-04-07 DOI:10.1109/ICEETS.2016.7582941

S. Sidney, Mohan Lal D

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引用次数: 10

Abstract

In this work a PV powered DC refrigerator was experimentally studied and exergic analysis was performed in both the refrigerator and PV panel. In this study the maximum exergic loss was observed in the PV panel which amounted to approximately to 86.23% loss. This was due to the thermal and electrical loses in the PV panel thus it is important to reduce the cell temperature to improve the performance of the PV panel. In the refrigeration side the experimentation was performed in a controlled environment chamber test facility at 25°C, 28°C, 31°C and 34°C to maintain consistency. A DC regulated power supply was used to power the refrigerator with the operating current and voltage. The operating current and voltage were obtained from the PVsyst software for a given solar irradiance and ambient temperature. The maximum exergic loss was observed in the compressor followed by the evaporator then the condenser and minimum exergy loss was observed in the expansion device. All the exergic loses in the refrigeration unit were directly proportional to the ambient temperature and minimum exergy loss was observed at 25°C.

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不同环境条件下太阳能光伏驱动直流制冷机的火用分析

本文对光伏供电的直流制冷机进行了实验研究，并对制冷机和光伏面板进行了火用分析。在本研究中，在光伏板中观察到最大的火用损失，其损失约为86.23%。这是由于光伏板中的热和电损失，因此降低电池温度以提高光伏板的性能非常重要。在制冷侧，为了保持一致性，实验在25°C、28°C、31°C和34°C的受控环境室测试设备中进行。利用直流稳压电源为冰箱提供工作电流和电压。在给定的太阳辐照度和环境温度下，工作电流和电压由PVsyst软件获得。在压缩机中观察到最大的火用损失，其次是蒸发器，然后是冷凝器，在膨胀装置中观察到最小的火用损失。制冷机组的所有火用损失与环境温度成正比，在25℃时观察到最小的火用损失。

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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2016 International Conference on Energy Efficient Technologies for Sustainability (ICEETS)

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