DESAIN STASIUN PENGISIAN BAHAN BAKAR LISTRIK PORTABLE MEMANFAATKAN ENERGI MATAHARI MENGGUNAKAN PHOTOVOLTAIC MONOCRYSTALLINE 100 WP

YUHANDRI, LUIS and Sofijan, Armin and Alwani, Hairul (2023) DESAIN STASIUN PENGISIAN BAHAN BAKAR LISTRIK PORTABLE MEMANFAATKAN ENERGI MATAHARI MENGGUNAKAN PHOTOVOLTAIC MONOCRYSTALLINE 100 WP. Undergraduate thesis, Sriwijaya University.

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Abstract

Photovoltaic is a tool for converting solar energy into electrical energy that is pollution-free and environmentally friendly, so it is very necessary to carry out further research in developing renewable technologies. Seeing this, it is necessary to innovate renewable energy that is effective and efficient so that it can be converted into electrical energy in the long term so that it can continue to meet the demand for electrical energy. One source of renewable energy is from the sun's rays which produce heat energy. By using a solar power plant (PLTS), the energy from the sun's heat can be converted into electrical energy. Departing from this, the authors conducted research on a 100 Wp monocrystalline solar panel by making it a portable electric refueling station by utilizing a charging and discharging system. Charging is done by using solar energy as the main energy which will be used as electrical energy, the panel will be channeled into box 1 which acts as a step down module to stabilize the incoming current and voltage and stored into the 7.2 Ah battery during the charging process, and after charging the discharging process will be carried out in Box 2 which has an inverter to convert AC current to DC. In the discharging process using a laptop with a capacity of 65 Watt and a cellphone with a battery capacity of 5000mAh, charging a laptop requires a greater current than charging a cellphone, so charging a laptop with a current of 3.5 Ampere can charge the laptop battery up to 42% with a charging time of 1 hour 10 minutes and for the discharging process the cellphone can charge the battery 97% with a charging time of 1 hour 30 minutes for charging-discharging charging until the laptop battery is 100% with a charging time of around 3 hours 30 minutes. Keywords: Photovoltaic, Monocristalline, Charging, Discharging

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Photovoltaic, Monocristalline, Charging, Discharging
Subjects: T Technology > TF Railroad engineering and operation > TF855-1127 Electric railways
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK4125-4399 Electric lighting
Divisions: 03-Faculty of Engineering > 20201-Electrical Engineering (S1)
Depositing User: Luis Yuhandri
Date Deposited: 25 Jul 2023 05:55
Last Modified: 25 Jul 2023 05:55
URI: http://repository.unsri.ac.id/id/eprint/121288

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