Hanif, Ainnul Rofiq Al (2017) Perancangan dan Simulasi Self Switch Controller untuk Mengatur Suplai Daya Listrik dari Wind Turbin dan PV-Solar Cell ke Gedung Pusat Robotika Institut Teknologi Sepuluh Nopember Surabaya pada Waktu Terjadinya Beban Puncak Kebutuhan Listrik. Diploma thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Data beban listrik total di Gedung Pusat Robotika menunjukkan sebesar 237,703 KW. Dengan data potensi kecepatan angin berkisar antara 2 m/s sampai dengan 12 m/s dan intensitas radiasi matahari berkisar antara 7.400 Kj/m2 sampai dengan 20.000 Kj/m2, Pengembangan renewable energy berupa Power Plant Hybrid (Wind Turbine dan PV-Solar Cell) diupayakan di Gedung Pusat Robotika untuk menyuplai sebagian kebutuhan listrik. Hasil penelitian perancangan dan simulasi simplified wind-solar hybrid power generator control system ini menunjukkan bahwa power output yang dihasilkan wind turbine rata-rata 9,920 KW dan PV-Solar Cell rata-rata 10,03 KW. Hasil simulasi self switch controller pada waktu simulasi 0 belum ada suplai daya listrik dari wind turbine dan pv-solar cell yang masuk ke beban listrik. Hasil simulasi self switch controller pada waktu simulasi 1 suplai daya listrik daya listrik dari wind turbine dan pv-solar cell mulai masuk ke beban listrik. Daya listrik maksimal yang disuplai oleh wind turbine dan pv-solar cell selama waktu puncak beban listrik di Gedung Pusat Robotika adalah 15,08 KW. Sedangkan rata-rata suplai daya listrik wind turbine dan pv-solar cell selama waktu puncak beban di Gedung Pusat Robotika adalah 14,96 KW.
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Total electrical load data at Central Robotics Building showed 237,703 KW. With the potential data of wind speeds ranging from 2 m/s up to 12 m/s and the intensity of solar radiation ranging from 7400 kJ / m2 to 20000 kJ / m2, Development of renewable energy in the form of Power Plant Hybrid (Wind Turbine and PV-Solar Cell) At the Robotics Center Building to supply some of the electricity needs. The results of the design and simulation of simplified wind-solar hybrid power generator control system shows that the output power generated by wind turbine averaged 9,920 KW and PV-Solar Cell averaged 10.03 KW. The result of simulation of self switch controller at simulation 0 has not yet any electric power supply from wind turbine and pv-solar cell that goes into electrical load. Simulation result of self switch controller at simulation 1 power supply of electric power from wind turbine and pv-solar cell start to enter electrical load. Maximum power supply supplied by wind turbine and pv-solar cell during peak load time at Robotics Center Building is 15.08 KW. While the average power supply of wind turbine and pv-solar cell during peak load time in Building Center of Robotics is 14,96 KW.
| Item Type: | Thesis (Diploma) |
|---|---|
| Uncontrolled Keywords: | Hybrid power plant, Wind turbine, PV-Solar Cell, Simulink, Pembangkit litrik tenaga hibrid, Turbin Angin |
| Subjects: | T Technology > TJ Mechanical engineering and machinery T Technology > TJ Mechanical engineering and machinery > TJ223 PID controllers |
| Divisions: | Faculty of Vocational > Mechanical Industrial Engineering (D4) |
| Depositing User: | Ainnul Rofiq Al Hanif |
| Date Deposited: | 25 Oct 2017 04:02 |
| Last Modified: | 09 Jan 2018 07:09 |
| URI: | http://repository.its.ac.id/id/eprint/47022 |
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