Solar Powered DC Refrigerator for Small Scale Applications

Engineering Proceedings Pub Date : 2022-02-14 DOI:10.3390/engproc2021012098

M. W. Jabbar, M. H. Naeem, Asad Muneer, Usama Rehman, Tayyab Riaz

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引用次数: 2

Abstract

Due to the gradatory reduction and exuberant ingestion of fossil fuels and the subsequent environmental problems, accretive work has been paid to the utilization of renewable energy sources, such as solar energy. Solar Photovoltaic System or Solar Power System is one of the renewable energy systems which uses PV units to convert sunlight into electricity. A DC compressor of 12 V/80 W, 12 V/50 Ah battery, a pair of 12 V/175 W solar panels connected in parallel through a 10 A charge controller was used for the refrigerator. Temperature was programmed to monitor and control the switching states of the DC compressor. This research project has established that the energy required for the real process of a DC refrigerator could be amassed from a renewable energy source at a reduced price and its application can be beneficial in developing countries. ATMEGA16 microcontroller with temperature, weight and momentary sensors interfacing was programmed in C language to control and monitor the ON/OFF states of the DC compressor. In this work, energy can be obtained from renewable energy resources at a reduced cost for the effective operation of a DC refrigerator. Thus, developing countries can also take benefit from its applications.

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用于小型应用的太阳能直流冰箱

由于化石燃料的逐渐减少和大量消耗以及随之而来的环境问题，对太阳能等可再生能源的利用进行了越来越多的工作。太阳能光伏发电系统或太阳能发电系统是一种可再生能源系统，它使用PV单元将太阳光转化为电能。冰箱采用12v / 80w直流压缩机、12v / 50ah蓄电池、一对12v / 175w太阳能板，通过10a充电控制器并联连接。通过编程温度来监测和控制直流压缩机的开关状态。该研究项目已经确定，直流制冷机实际过程所需的能量可以以较低的价格从可再生能源中积累，其应用在发展中国家是有益的。用C语言编写了具有温度、重量和瞬时传感器接口的ATMEGA16单片机，用于控制和监测直流压缩机的开/关状态。在这项工作中，可以以较低的成本从可再生能源中获得能量，从而使直流制冷机有效运行。因此，发展中国家也可以从其应用中获益。

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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Engineering Proceedings

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0.70

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