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

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. =========================================================================================== 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
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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