Performance Test of Polycrystalline 200 Wp Capacity Solar Panels in Laikang Village

Gusdin Shawal Zainuddin Yunus; Darmawang; Mohammad Mandra; Marthen Paloboran; Andi Ali

doi:10.25299/jeee.2023.13968

Earth Science Energy Storage Sustainable Energy Exploration

Gusdin Shawal Zainuddin Yunus ⁽¹⁾, Darmawang ⁽²⁾, Mohammad Ahsan S. Mandra ⁽³⁾, Marthen Paloboran ⁽⁴⁾, Andi Muhammad Taufik Ali ⁽⁵⁾

(1) Automotive Engineering Education, Faculty of Engineering, Makassar State University, Indonesia,

(2) Automotive Engineering Education, Faculty of Engineering, Makassar State University, Indonesia,

(3) Automotive Engineering Education, Faculty of Engineering, Makassar State University, Indonesia,

(4) Automotive Engineering Education, Faculty of Engineering, Makassar State University, Indonesia,

(5) Automotive Engineering Education, Faculty of Engineering, Makassar State University, Indonesia

https://doi.org/10.25299/jeee.2023.13968

Issue
Vol. 12 No. 3 (2023)

Submitted
July 31, 2023

Published
January 10, 2024

Keywords:

Performance, Renewable Energy, Solar Cell, Earth, Energy Sun

No galleys available

Abstract

This research is a pre-experimental design (non-design) study which aims to determine how much electricity generation performance of Solar Cell technology is under static load. The independent variable in this study is the intensity of sunlight at the installation location of the Solar Cell technology, while the dependent variable in this study is the performance of the Solar Cell technology, namely voltage (V), current (I), resistance (Ohm) and power. This research uses Solar Cell technology power generation. This research was conducted in Padang Savana, Laikang Village, Mangarabombang District, Takalar Regency, South Sulawesi. The research data were obtained by measuring the input and output of the 200 WP solar cell hybrid technology to determine power and efficiency. To determine the performance of Solar Cell technology against solar radiation, it can be determined by measuring using a lux meter, Avometer, Watt Meter, Tang Ampere. The data analysis technique is descriptive analysis. Based on the results of data analysis, a minimum output power of 12.68 W is obtained with a minimum solar cell efficiency of 4.65% and a maximum output power of 194.2 W with an efficiency of 12.22%. This can be interpreted that the power generation performance of Solar Cell and Wind Turbine technology at static loads is not in accordance with the stated specifications.

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