FIGO, MUHAMMAD (2024) PEMANFAATAN SISTEM PLTS UNTUK PENGISIAN AIR OTOMATIS PADA TANDON BERBASIS IoT. S1 thesis, Fakultas Teknik Universitas Sultan Ageng Tirtayasa.
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Abstract
Utilization a solar power plant system is one way to reduce the use of fossil fuels. The main objective of this research is to utilized a solar power plant system that can distribute air automatically based on IoT using a PID control system. This research utilize an off grid solar power plant system that used 150 WP monocrystaline solar module. The solar output power module is used as a power source in the automatic water filling system. Solar module output power testing was carried out in three different weather conditions including sunny weather, cloudy weather and rainy weather. Testing of the automatic water filling system was carried out by maintaining three different water level in the reservoir including 6 cm, 8 cm and 10 cm using a PID control system. The results of this research show that the peak power output in sunny weather is 137.96 W, in cloudy weather it is 62.53 W and in rainy weather it is 50.98 W. For testing at 6 cm air height there is an error value of 3.31%. Testing an air height of 8 cm has an error value of 3.62%. Testing an air height of 10 cm has an error value of 2.78%. All testing processes can detect through the IoT platform.
Item Type: | Thesis (S1) | |||||||||
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Additional Information: | Pemanfaatan sistem PLTS merupakan salah satu cara untuk mengurangi pemakaian bahan bakar fosil. Tujuan utama dari penelitian ini yaitu memanfaatkan sistem PLTS yang dapat mengisi air secara otomatis berbasis IoT menggunakan sistem kendali PID. Penelitian ini menafaatkan sistem PLTS off grid yang menggunakan modul surya 150 WP jenis monocrystaline. Daya keluaran modul surya dipakai untuk sumber listrik pada sistem pengisian air otomatis. Pengujian daya keluaran modul surya dilakukan dalam tiga kondisi cuaca berbeda diantaranya cuaca cerah, cuaca berawan dan cuaca hujan. Pengujian sistem pengisian air otomatis dilakukan dengan menjaga tiga ketinggian air yang berbeda pada tandon diantaranya 6 cm, 8 cm dan 10 cm menggunakan sistem kendali PID. Hasil dari penelitian ini, daya puncak keluaran pada cuaca cerah sebesar 137,96 W, cuaca berawan sebesar 62,53 W dan cuaca hujan sebesar 50,98 W. Untuk pengujian ketinggian air 6 cm terdapat nilai kesalahan 3,31 %. Pengujian ketinggian air 8 cm terdapat nilai kesalahan 3,62%. Pengujian ketinggian air 10 cm terdapat nilai kesalahan 2,78 %. Semua proses pengujian dapat dipantau melaui platform IoT. | |||||||||
Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering | |||||||||
Divisions: | 03-Fakultas Teknik 03-Fakultas Teknik > 20201-Jurusan Teknik Elektro |
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Depositing User: | Muhammad Figo Figo | |||||||||
Date Deposited: | 16 Apr 2024 10:15 | |||||||||
Last Modified: | 16 Apr 2024 10:15 | |||||||||
URI: | http://eprints.untirta.ac.id/id/eprint/34756 |
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