ANALYSIS OF THE EFFECT OF MAGNETIC LOCATION AND ADDITION OF BERRIER FLUX ON BACK EMF VALUE ON PMSG 12S8P USING FEM METHOD
DOI:
https://doi.org/10.58436/jeepa.v2i1.1040Keywords:
Permanent Magnet Synchronous Generator (PMSG), Letak Magnet, Fluks Berrier, Nilai Back EmfAbstract
References
[1] Situngkir, Licardo H., and Abil Mansyur. "aplikasi metode smoothing eksponensial dalam peramalan persediaan energi listrik (studi kasus: persediaan energi listrik oleh pt. Pln (persero) area medan." KARISMATIKA: Kumpulan Artikel Ilmiah, Informatika, Statistik, Matematika dan Aplikasi 4.1 (2018).
[2] Ahmad Redi, “Hukum Pertambangan Indonesiaâ€, Jakarta: Gramata Publishing, 2014.
[3] Zhang, L., Zheng, H., Wan, T., Shi, D., Lyu, L., & Cai, G. (2021). An integrated control algorithm of power distribution for islanded microgrid based on improved virtual synchronous generator. IET Renewable Power Generation, 15(12), 2674-2685.
[4] M. R. Hadisiwoyo, I. Arifianto, S. Rahmatia, and R. Elson, “Variasi Geometri Pemodelan PM Generator Sinkron 12 Slot 8 Pole ¼ Model,†pp. 48-52, 2018.
[5] Krisdiantoro, Heni, Triwahju Hardianto, and Widyono Hadi. "Unjuk Kerja Permanent Magnet Synchronous Generator (PMSG) 3 Fasa Fluks Radial dari Modifikasi Motor Induksi." Jurnal Arus Elektro Indonesia 7.3 (2021): 95-100.
[6] Irfan, Muhammad, Erwin Erwin, and Slamet Wiyono. "Perancangan Permanent Magnet Synchronous Generator Sultan Wind Turbine V-5." Jurnal Asiimetrik: Jurnal Ilmiah Rekayasa & Inovasi (2021): 131-142.
[7] Prayogo, Ferdi Ridho. Skripsi–Energi Listrik Rancang Bangun Motor Induksi Sebagai Generator Permanent Magnet Synchronous Generator (Pmsg) Pada Pltb Skala Mikro. Diss. Institut Teknologi Nasional Malang, 2021.
[8] Anuja, T. A., and M. Arun Noyal Doss. "Reduction of cogging torque in surface mounted permanent magnet brushless DC motor by adapting rotor magnetic displacement." Energies 14.10 (2021): 2861.
[9] Liliana, Liliana Liliana. "Analisis Pengaruh Material Magnet Permanent Terhadap Karakteristik Generator Sinkron Radial 18 Slot 16 Pole." Power Elektronik: Jurnal Orang Elektro 11.1 (2022): 45-50.
[10] Sauza, Nurcholis Harmade. Pengaruh Variasi Geometri Umbrella Terhadap Torsi Cogging Pada Generator 12s8p Untuk Turbin Angin Menggunakan Software Magnet. Diss. Universitas Gadjah Mada, 2020.
[11] Wibowo, B. C., Winardi, I. B., Kom, M., & Belakang, L."Simulasi Perubahan Tegangan Keluaran Permanent Magnet Synchronous Generator (Pmsg) 12s8p Terhadap Variasi Kecepatan Putar Rotor Dengan Software Berbasis Finite Element Method (Fem)." J. Tek. Elektro 2.1 (2020): 1-9.
[12] E. Maghfira, A. Harahap, I. H. Rosma, and A. Hamzah, “Analisis Pengaruh Posisi Peletakan Magnet Permanen di Rotor Terhadap Kinerja Generator Sinkron Magnet Permanen,†vol. 7, pp. 1–6, 2020.
[13] Ujang, Ujang Cakra Buana. "Analisis Pengaruh Lebar Teeth Terhadap Penurunan Nilai Cogging Torque pada PMSG 18S16P." Electrician 16.1 (2022): 1-8.
[14] N. Tajuddin and E. Lisa, “Studi the Effect of Height and Edge on The Cogging Torque Reduction of Frantional Slot Number in Magnet Permanent Machine,†in International Conference on Electrical Engineering, Science and Technology (ICEST), Bandar Lampung, 2019.
[15] Adıgüzel, Fatih, and Türker Türker. "A periodic adaptive controller for the torque loop of variable speed brushless DC motor drives with non-ideal back-electromotive force." Automatika 63.4 (2022): 732-744.
[16] Rigatos, G., M. Abbaszadeh, and P. Siano. "A nonlinear optimal control approach for permanent magnet AC motors with non-sinusoidal back EMF." Electrical Engineering (2022): 1-26.
[17] J. R. Hendershot Jr and T. J. E. Miller, Design of Brushless Permanent-Magnet Motors, Oxford: MAGNA PHYSICS PUBLISHING AND CLARENDON PRESS, 1994.
[18] Mukhtar, M., et al. "Analisis Desain Stator Generator Tipe Magnet Permanen Fluks Aksial Menggunakan Metode Finite Element Analysis (FEA)." Jurnal Teknik Mesin 8.2 (2021): 149-156.
[19] B. Setiyawan, A. A. Z. M, I. Pendahuluan, and L. Belakang, “Simulasi Perubahan Tegangan Keluaran Permanent Magnet Synchronous Generator ( Pmsg ) 12s8p Terhadap Variasi Material Inti Dengan Software Berbasis Finite Element Method ( FEM ).â€
[20] Indrawan Arifianto, Muhamad Rangga HS. "Analisa Efisiensi dan Rancang Generator Permanent Magnet 12 Slot 8 Pole Menggunakan Software Magnet 7.5." Seminar Nasional Microwave, Antena dan Propagasi (SMAP). 2018.
[21] Janie, Dyah Nirmala Arum. "Statistik deskriptif & regresi linier berganda dengan SPSS." Jurnal, April (2012).
[22] Pramesti, Getut. Statistika lengkap secara teori dan aplikasi dengan SPSS 23. Elex Media Komputindo, 2016.
[23] Bayu, Era. Pengaruh Variasi Posisi Letak Magnet Terhadap Back-Emf Pada Pemodelan Permanent Magnet Synchronous Generator 18 Slot 16 Pole Menggunakan Software Field Element Method. Era Bayu, 2021.
[24] Bacco, Giacomo, and Nicola Bianchi. "Design criteria of flux-barriers in synchronous reluctance machines." IEEE Transactions on Industry Applications 55.3 (2018): 2490-2498.
[25] Li, Yong, et al. "Programmable design of magnet shape for permanent-magnet synchronous motors with sinusoidal back EMF waveforms." IEEE transactions on magnetics 44.9 (2008): 2163-2167
[2] Ahmad Redi, “Hukum Pertambangan Indonesiaâ€, Jakarta: Gramata Publishing, 2014.
[3] Zhang, L., Zheng, H., Wan, T., Shi, D., Lyu, L., & Cai, G. (2021). An integrated control algorithm of power distribution for islanded microgrid based on improved virtual synchronous generator. IET Renewable Power Generation, 15(12), 2674-2685.
[4] M. R. Hadisiwoyo, I. Arifianto, S. Rahmatia, and R. Elson, “Variasi Geometri Pemodelan PM Generator Sinkron 12 Slot 8 Pole ¼ Model,†pp. 48-52, 2018.
[5] Krisdiantoro, Heni, Triwahju Hardianto, and Widyono Hadi. "Unjuk Kerja Permanent Magnet Synchronous Generator (PMSG) 3 Fasa Fluks Radial dari Modifikasi Motor Induksi." Jurnal Arus Elektro Indonesia 7.3 (2021): 95-100.
[6] Irfan, Muhammad, Erwin Erwin, and Slamet Wiyono. "Perancangan Permanent Magnet Synchronous Generator Sultan Wind Turbine V-5." Jurnal Asiimetrik: Jurnal Ilmiah Rekayasa & Inovasi (2021): 131-142.
[7] Prayogo, Ferdi Ridho. Skripsi–Energi Listrik Rancang Bangun Motor Induksi Sebagai Generator Permanent Magnet Synchronous Generator (Pmsg) Pada Pltb Skala Mikro. Diss. Institut Teknologi Nasional Malang, 2021.
[8] Anuja, T. A., and M. Arun Noyal Doss. "Reduction of cogging torque in surface mounted permanent magnet brushless DC motor by adapting rotor magnetic displacement." Energies 14.10 (2021): 2861.
[9] Liliana, Liliana Liliana. "Analisis Pengaruh Material Magnet Permanent Terhadap Karakteristik Generator Sinkron Radial 18 Slot 16 Pole." Power Elektronik: Jurnal Orang Elektro 11.1 (2022): 45-50.
[10] Sauza, Nurcholis Harmade. Pengaruh Variasi Geometri Umbrella Terhadap Torsi Cogging Pada Generator 12s8p Untuk Turbin Angin Menggunakan Software Magnet. Diss. Universitas Gadjah Mada, 2020.
[11] Wibowo, B. C., Winardi, I. B., Kom, M., & Belakang, L."Simulasi Perubahan Tegangan Keluaran Permanent Magnet Synchronous Generator (Pmsg) 12s8p Terhadap Variasi Kecepatan Putar Rotor Dengan Software Berbasis Finite Element Method (Fem)." J. Tek. Elektro 2.1 (2020): 1-9.
[12] E. Maghfira, A. Harahap, I. H. Rosma, and A. Hamzah, “Analisis Pengaruh Posisi Peletakan Magnet Permanen di Rotor Terhadap Kinerja Generator Sinkron Magnet Permanen,†vol. 7, pp. 1–6, 2020.
[13] Ujang, Ujang Cakra Buana. "Analisis Pengaruh Lebar Teeth Terhadap Penurunan Nilai Cogging Torque pada PMSG 18S16P." Electrician 16.1 (2022): 1-8.
[14] N. Tajuddin and E. Lisa, “Studi the Effect of Height and Edge on The Cogging Torque Reduction of Frantional Slot Number in Magnet Permanent Machine,†in International Conference on Electrical Engineering, Science and Technology (ICEST), Bandar Lampung, 2019.
[15] Adıgüzel, Fatih, and Türker Türker. "A periodic adaptive controller for the torque loop of variable speed brushless DC motor drives with non-ideal back-electromotive force." Automatika 63.4 (2022): 732-744.
[16] Rigatos, G., M. Abbaszadeh, and P. Siano. "A nonlinear optimal control approach for permanent magnet AC motors with non-sinusoidal back EMF." Electrical Engineering (2022): 1-26.
[17] J. R. Hendershot Jr and T. J. E. Miller, Design of Brushless Permanent-Magnet Motors, Oxford: MAGNA PHYSICS PUBLISHING AND CLARENDON PRESS, 1994.
[18] Mukhtar, M., et al. "Analisis Desain Stator Generator Tipe Magnet Permanen Fluks Aksial Menggunakan Metode Finite Element Analysis (FEA)." Jurnal Teknik Mesin 8.2 (2021): 149-156.
[19] B. Setiyawan, A. A. Z. M, I. Pendahuluan, and L. Belakang, “Simulasi Perubahan Tegangan Keluaran Permanent Magnet Synchronous Generator ( Pmsg ) 12s8p Terhadap Variasi Material Inti Dengan Software Berbasis Finite Element Method ( FEM ).â€
[20] Indrawan Arifianto, Muhamad Rangga HS. "Analisa Efisiensi dan Rancang Generator Permanent Magnet 12 Slot 8 Pole Menggunakan Software Magnet 7.5." Seminar Nasional Microwave, Antena dan Propagasi (SMAP). 2018.
[21] Janie, Dyah Nirmala Arum. "Statistik deskriptif & regresi linier berganda dengan SPSS." Jurnal, April (2012).
[22] Pramesti, Getut. Statistika lengkap secara teori dan aplikasi dengan SPSS 23. Elex Media Komputindo, 2016.
[23] Bayu, Era. Pengaruh Variasi Posisi Letak Magnet Terhadap Back-Emf Pada Pemodelan Permanent Magnet Synchronous Generator 18 Slot 16 Pole Menggunakan Software Field Element Method. Era Bayu, 2021.
[24] Bacco, Giacomo, and Nicola Bianchi. "Design criteria of flux-barriers in synchronous reluctance machines." IEEE Transactions on Industry Applications 55.3 (2018): 2490-2498.
[25] Li, Yong, et al. "Programmable design of magnet shape for permanent-magnet synchronous motors with sinusoidal back EMF waveforms." IEEE transactions on magnetics 44.9 (2008): 2163-2167
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Published
2022-05-30
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and , “ANALYSIS OF THE EFFECT OF MAGNETIC LOCATION AND ADDITION OF BERRIER FLUX ON BACK EMF VALUE ON PMSG 12S8P USING FEM METHOD: Array”, jeepa, vol. 2, no. 1, pp. 65–71, May 2022.
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