Abstract
The rapid development of technology, sunlight can be converted into electrical energy. But there are problems that arise in the performance of solar panels, one of which is the panel temperature is too high. Therefore to overcome the decrease in performance, the panel temperature needs to be maintained. In this study aims to analyze the temperature settings on solar panel cooling using variations in air velocity to improve photovaltic performance. Solar simulators is used in this ekperiment and carried out in a closed room conditions. solar panel is placed in a special box called a cooler box and four thermocouples are placed at the top of the panel and 2 others at the bottom of the panel to evaluate the temperature changes that occurs on the panel. An air blower is combined with an anemometer to provide variations in air velocity for cooling the panels. From the results of solar panel testing without cooling obtained in the temperature range of 38 - 52.875⁰C produces electrical efficiency ranging from 3.014 - 3.134%. Whereas in testing using cooling with varying air velocity of 2, 3, 4, and 5 m/s in the temperature range of 33.43 -40.5°C produces electrical efficiency ranging from 3.106 - 3.206 %.
Highlights
The rapid development of technology, sunlight can be converted into electrical energy
In this study aims to analyze the temperature settings on solar panel cooling using variations in air velocity to improve photovaltic performance
Pada menit ke-5, temperatur panel surya tanpa pendinginan mencapai 40,60C dengan efisiensi sebesar 3,103%
Summary
The rapid development of technology, sunlight can be converted into electrical energy. Media Pendingin[6] menggunakan water spray dapat meningkatkan efisiensi daya ouput dari panel surya sekitar 16.3% dan menaikan efisiensi panel sebesar 14,1% hal ini karena pendinginan dilakukan secara total baik itu bagian permukaan maupun bagian bawah panel surya. Penurunan temperature panel yang terjadi sebesar 3-5°C, dan hal ini memberikan dampak kepada peningkatan efisiensi listrik dan daya keluaran dari panel surya.
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