Testing of Deliver Active Power for Operation Sub–Sync and Super-Sync on Doubly Fed Induction Generator Applied in Wind Turbine
DOI:
https://doi.org/10.53893/ijrvocas.v2i3.152Keywords:
PLTB, DFIG, Power control, Power converterAbstract
Technology developments related to the renewable energy industry are increasing, one example of wind power generation technology which has several relationship configurations with generator. This system configuration is known a wind generator with a DFIG (Double Fed Induction Generator). This system can supply active power from the induction generator stator connected directly to the network while the rotor is connected to the network through a back to back converter. The operation of the double feeder induction generator (DFIG) consists of two conditions, the first condition is super-synchronous where power will be transmitted from the rotor through the converter to the network and the second condition is sub-synchronous where the rotor will absorb power from the network through the converter. This research was conducted to determine the active power distribution in two operating conditions of a double feeder induction generator. Generator power delivery increases for sub-synchronous and super-synchronous operation when active MSC increases from 10% to 60% and generator speed is constant. For a changing speed and a constant active MSC, constant power distribution from the generator (PDFIG) is obtained.
References
Kamal, M., Arifin, F., & Rusdianasari. (2021). Analysis of the Performance of the Four-Blade Darrieus Wind Turbine at the Jamik Bukit Asam Mosque Complex Tanjung Enim South Sumatra: Analysis of the Performance of The Four-Blade Darrieus Wind Turbine at the Jamik Bukit Asam Mosque Complex Tanjung Enim South Sumatra. International Journal of Research in Vocational Studies (IJRVOCAS), 1(2), 45–51. https://doi.org/10.53893/ijrvocas.v1i2.52
Astanto, I., Arifin, F., Bow, Y., & Sirajuddin. (2022). Study of Effect Changing the Blade Shape and Lift Angles on Horizontal Wind Turbine. International Journal of Research in Vocational Studies (IJRVOCAS), 2(1), 33–37. https://doi.org/10.53893/ijrvocas.v2i1.92
Abdul Natsir,Dkk,” Kontrol Daya Dengan Variasi Kecepatan pada Double-Fed Induction Generator Untuk Turbin Angin, Dielektrika, ISSN 2086-9487,Vol3, No.1, 2016.
A. Singh, Er.P, (2014), “ Modelling Simulation and Analysis of Doubly Fed Induktion Generator for Wind Turbines,” IJIREEICE Vol. 2,Iss 5, India
A. K. B. Karma Sanam Sherpa, Muhammad Nasir Ansari, Amit Kumar Singh, “ Advance in System Control and Automation, pp. 347-353,2018
Dwi Sanjaya, (2012), “ Perancangan Kendali Daya Pada Pembangkit Listrik Tenaga Bayu DFIG Berbasis Kendali Vektor dan VSO,” Skripsi, Universitas Indonesia.
D. Srinivasa Roa, T. Ajaykumar, (2012), “ Grid Connected DFIG With Efficient Rotor Power Flow Control Under Sub & Super Synkronous Modes of Operation”. International Elektrical Engineering Journal (IEEJ) Vol. 3 No.2, pp. 776-783 India.
A.Sing, ER.P.Tiwari, 2004, “Modelling, Simulation and Analysis of Doubly Fed Induction Generator For Wind Turbines”, IJIREEICE Vol. 2, Issue 5, India.
G. Li and L. Hang, (2017) “ Control of Doubly fed Induction Generator for Wind Turbin,”Model“ Mod Control Wind Power, PP.37-62: doi 10.1002/9781119236382.ch3
H. Abu-Rub, A Iqbal and J Guzinkski, “High Performance control AC Drive”, United Kingdom: Wiley, 2012
H.Nian, C . Cheng, and Y. Song, Coordinated Control of DFIG System Based on Repetitive Control Srategy under generalized Harmonic Grid Voltage. Journal power Electronic , 17 (3) 733-743, 2017.
Leon Freris, “Renewable Energy in Power System”, A.John Wiley and Sons Ltd, Loughborough University UK, 2008
M. A. Snyder, “ Development of Simplified Model of Doubly Fed Induction Generators,”Clalmers University Of Technology, 2012
M. Muchlis dan A. D Permana, (2020), ” Proyeksi Kebutuhan Listrik PLN 2003 s.d. 2020,”Pengembangan sistem Kelistrikan dan Menunjang Pembangunan Nasional Jangka Panjang, P 11 Halaman,
Yahya, & Gunawan, I. (2022). Design of JIB Crane 600 kg Electric Powered. International Journal of Research in Vocational Studies (IJRVOCAS), 1(4), 37–40. https://doi.org/10.53893/ijrvocas.v1i4.76
M.A. Snyder, (2012) “Development of Simflified Models of Doubly Fed Induction Generator, Chalmer University of Technology
M. E. Hossain, “ Low Voltage Ride-Through capability Improvement Methods for DFIG Based Wind Farm,” Journal of Electrical System and Information Technology, 5 (3) 550-561, 2018
Olimpo Anaya-Lara, “Wind Energy Generation Modelling ang Contro”, A John Wiley and Sons Ltd, Unuversity of Strathclyde, 2009
Rosmalita Arini, Dkk, “ Pengujian Kontrol Daya Aktif Pada Doubly Fed Induction Generator (DFIG) Untuk Turbin Angin, Jurusan Teknik Elektro Fakultas Teknik Universitas Mataram.
Dwi Sanjaya, 2012, “ Perencanaan Kendali Daya pada Pembangkit Listrik Tenagaq Bayu DFIG Berbasis Elektro dan PSO, Skripsi, Universitas Indonesia.
Prof. Dr. M.Burgmer, Christian Feltes, Ralf Linnertz, “ Wind Power Plants With DFIG, University Duisburg ESSEN, Lucas-Nulle GmbH, 2009-2011.
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