RANCANG BANGUN GENERATOR AKSIAL DENGAN MENGGUNAKAN MAGNET PERMANEN NdFeB PERSEGI PANJANG
Abstract
Axial generators or Permanent Magnet Axial Flux (AFPM) are low-speed generators commonly used in Wind Power Plants (WPP). This generator has the rotor and stator position perpendicular to its axis. The rotor has permanent magnets, and the stator has copper wire coils. The purpose of this study was to analyse the output voltage characteristics of an axial generator using a permanent magnet of the Neodymium Ferrite Boron (NdFeB) type was arranged in layers. The method used is to design, manufacture, and measure the output of an axial generator with no load and load. Based on the research results, a no-load generator with a four-layer magnetic rotor produces the highest output voltage of 3.06 – 10.77 Volts at a rotor rotation speed of 360 rpm – 1328 rpm. Meanwhile, under conditions of 5 W DC lamp, the rotational speed of the rotor decreases between 355 – 1335 rpm, the output voltage is between 2.85 –5.86 Volts.
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References
A. Nurtjahjomulyo, “Rancang Bangun Generator Turbin Angin Tipe Aksial Kapasitas 200 W,” Lapan, pp. 96–101.
D. Susanto, M. Mulyadi, N. ’Atifah, and P. Sebayang, “Rancang Bangun dan Analisa Kinerja Generator Fluks Aksial Magnet Permanen Putaran Rendah untuk Turbin Angin Sumbu Vertikal Tipe Savonius,” Pist. J. Tech. Eng., vol. 2, no. 1, pp. 12–17, 2019, doi: 10.32493/pjte.v2i1.3222.
B. M.NILENDRA, “Analisa Perbandingan Desain dan Simulasi Generator Fluks Aksial Magnet Permanen 3 Fasa untuk Aplikasi Generator Angin Kecepatan Rendah,” Skripsi , Progr. Stud. Tek. Elektro,Fakultas Tek. Univ. Indones., 2012.
W. D. P. Herudin, “Rancang Bangun Generator Sinkron 1 Fasa Magnet Permanen Kecepatan Rendah 750 RPM,” J. Ilm. SETRUM, vol. 5, no. 1, pp. 11–15, 2016.
A. A. Hasyim Asy’ari, Jatmiko, “Desain Generator Magnet Permanen Kecepatan Rendah Untuk Pembangkit Listrik Tenaga Angin Atau Bayu (PLTB),” Tek. Elektro, vol. 12, no. 01, pp. 59–67, 2012.
F. D. Wijaya, Y. S. W, and R. A. Nugroho, “Perancangan Generator Magnet Permanen Fluks Aksial Putaran Rendah,” Annu. Eng. Semin. 2014, pp. B21–B26, 2014.
A. Fajar, “Rancang Bangun Generator Sinkron Axial Flux Permanent Magnet Axial Flux Permanent Magnet 1500 Watt,” no. December, 2017.
M. F. Alqodri, C. E. Rustana, and H. Nasbey, “Rancang Bangun Generator Fluks Aksial Putaran Rendah Magnet Permanen Jenis Neodymium ( NdFeB ) Untuk Turbin Angin Sumbu Vertikal Tipe Double-Stage Savionus,” Semin. Nas. Fis. SNF 2015, vol. IV, pp. 135–142, 2015.
Y. C. Wu and C. W. Wang, “Transmitted torque analysis of a magnetic gear mechanism with rectangular magnets,” Appl. Math. Inf. Sci., vol. 9, no. 2, pp. 1059–1065,2015,doi:10.12785/amis/0902 57.
Y. C. Wu and H. Sen Yan, “Design of surface-mounted permanent - magnet brushless DC motors combined with gear mechanisms,” Trans. Can. Soc. Mech Eng., vol. 37, no. 3, pp. 439–448, 2013, doi: 10.1139/tcsme-2013-0033.
S.Syam,S.Soeparman,D.Widhiyanuriawan, and S. Wahyudi, “Comparison of axial magnetic gears based on magnetic composition topology differences,” Energies, vol. 11, no. 5, pp. 1–15, 2018, doi: 10.3390/en11051153.
N. F. Lombard and M. J. Kamper, “Analysis and performance of an ironless stator axial flux PM machine,” IEEE Trans. Energy Convers., vol. 14, no. 4, pp. 1051–1056,1999,doi: 10.1109/60 .815027.
D. W. Chung and Y. M. You, “Design and performance analysis of coreless axial-flux permanent-magnet generator for small wind turbines,” J. Magn., vol. 19, no. 3, pp. 273–281,2014,doi:10.4283/JMAG. 2014. 19.3.273.
U. K. Madawala and J. T. Boys, “Magnetic field analysis of an ironless brushless dc machine,” IEEE Trans. Magn., vol. 41, no. 8, pp. 2384–2390, 2005, doi: 10.1109 / TMAG.2005.852952.
S. Syam, S. Kurniati, and R. Ramang, “Design and characteristics of axial magnetic gear using rectangular magnet,” J. Eur. des Syst. Autom., vol. 53, no. 2, pp. 167–175,2020,doi:10.18280 / jesa.530202.
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