RANCANG BANGUN KONSTRUKSI GENERATOR LISTRIK DENGAN PENGGERAK FLYWHEEL MENGGUNAKAN SISTEM TRANSMISI PULI-SABUK
Keywords:
Construction, Induction motor, Flywheel, generator and belt pulleyAbstract
Generator is a mechanical device that can produce electricity. The source of this generator generally uses a source of gasoline or electricity. Generators are generally driven by a driving motor. A community leader named Suliadi (Najib) who lives in West Bangka Regency, Muntok District wants to make a construction tool that can drive a generator using a motor and flywheel. Najib sees that a mechanical alternative is needed that can drive a generator with a driving motor assisted by a flywheel, so it is necessary to design and construct a mechanical construction that can connect the motor, flywheel and generator. To solve this problem, the design process is carried out by applying the VDI 2222 design methodology which has four stages, namely planning, conceptualizing, designing, and completing. The assembly process will use the techniques that have been learned at Polman Babel. Based on the construction that has been made, the tool that will be used to transmit the motor, flywheel to the generator uses a pulley-belt. Based on this construction, it is known that the motor can transmit its rotation to the flywheel, then from the flywheel it can increase the resulting rotation to the generator. From this construction, it can be seen that the shaft on the generator rotates and produces a voltage of 150 volts.
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Razali, R., & Stephan, S. (2017). Rancang Bangun Mesin Pembangkit Listrik Tanpa Bbm Berkapasitas 3000 Watt Dengan Memanfaatkan Putaran Flywheel. Media Elektro Journal, 45-48.
Gunawan, I., & Purba, T. (2021). PERENCANAAN PEMBANGKIT LISTRIK TANPA BAHAN BAKAR MENGGUNAKAN GENERATOR 3 KW DENGAN MOTOR LISTRIK AC 0,735 KW PUTARAN 14OO rpm. Jurnal Rotor, 2(2), 40-49
Jumadi Tangko, Remigius Tandioga, Ismail Djufri dan Riza Haardiyanti. 2019. Analisis Pembangkit Listrik Berbasis Flywheel. Sinergi. 17 (1): 77-83.
Citra Zaskia Pratiwi, dan Dimas Bayu Sasongko. 2021. Rancang Bangun Prototipe Generator Bebas Energi Menggunakan Flywheel. Jurnal Chanos chanos. 19 (1) : 135-142.
Samsul Ariffaiuddin Dan Agung Prijo Budijono,ST., MT. 2018. Rancang Bangun Prototype Alat Untuk Meningkatkan Energi Listrik Alternatif Menggunakan Flywheel Generator. JRM. 04 (03) : 31-35.
Yuniarsih, P., Bachtiyar, F., Rosyidin, M., dan Prabawanto, T. (2014). Flywheel Generator. In Pekan Ilmiah Mahasiswa Nasional Program Kreativitas Mahasiswa-Teknologi 2014. Indonesian Ministry of Research, Technology and Higher Education.
June Tharaphe Lwin. 2019. Design Calculation of Flywheel Free Energy Generating System with Motor-Generator. International Journal of Innovative Science, Engineering dan Technology. Vol. 06. Issue 08.
Olabi, A. G., Wilberforce, T., Abdelkareem, M. A., dan Ramadan, M. (2021). Critical review of flywheel energy storage system. Energies, 14(8), 2159.
Panggih Prakasa, C. (2022). ANALISA PENGARUH BERAT FLYWHEEL TERHADAP PUTARAN PADA MESIN PEMBANGKIT LISTRIK (Doctoral dissertation, INSTITUT TEKNOLOGI NASIONAL MALANG).
Kristianto, Ari. (2016). Skripsi Perencanaan Lilitan Motor Induksi 3 Fasa 220/380 V. Yogyakarta : Universitas Negeri Yogyakarta. Di akses dari http://eprints.uny.ac.id/62072/1/11506134042.pdf
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