Design of Phase-Shifting Transformer Based on Simulink Matlab Simulation

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I Made Wiwit Kastawan
Politeknik Negeri Bandung

Ewin Yusuf
Department of Energy Conversion Engineering, Politeknik Negeri Bandung

Afif Fadhilah
At-Tashdiq Indonesia

Keywords

Current harmonic, Phase-shifting, Simulation, Three-phase, Transformer

Abstract

Using variable speed drive for controlling speed of three-phase induction motor in industrial sector gives an advantage of reducing consumption of electrical energy; on the other hand, it also causes a disadvantage of source current harmonic.  To solve the problem of source current harmonic, a method of using phase-shifting transformer is applied. This method may be applied in a system with two VSDs or more connected to a three-phase power supply. The application of this phase-shifting transformer method could be as simple as using of two transformer with Y-y (wye-wye) and Y-d (wye-delta) three-phase winding connections to give a phase-shifting of 30 or more complex as it uses two transformer with Y-y and Y-z (wye-zigzag) three-phase winding connections to give a phase-shifting less than 30. This paper proposes design of five different phase-shifting transformer configurations to produce 30, 20, 15, 12 and 10 phase-shifting. Simulation on a computer-based software, Simulink Matlab, then confirmed that the proposed phase-shifting transformer design gives a very accurate result regarding to phase-shifting and magnitudes of input and output voltage of the phase-shifting transformers.

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References

Abdelaziz, A. Y. 2012. Technical Comparison of Harmonic Mitigation Technique for Industrial Electrical Power System. Kairo: Ain Shams University.
Bambiso, S. and Kusakana, K. 2018. Life Cycle Cost Comparison between Motor Equipped with Speed Drive and Dampers for Pumps and Fans. IEEE PES/IAS Power Africa, pp. 931-936.
Davudi, M., Torabzad, S., and Ojaghi, B. 2011. Analysis of Harmonics and Harmonics Mitigation Methods in Distribution System. Australian Journal of Basic and Applied Science, Vol. 5, pp. 996-1005.
Gamit, K. and Chaudhari, K. 2016. Multi-Phase Rectifier Using Difference Phase-Shifting Transformer and its THD Comparison for Power Quality Issues. CGPIT, Gujarat, India.
Harrison, A. 2010. The Effect of Harmonics on Power Quality and Energy Efficiency. Dublin: Dublin Institute of Technology.
Ikheloa, S. O., Aibangbee, J. O. 2019. Mathematical Modeling of Three-phase Power Transformer Phase-Shift Compensation Differential Protection Using Star/Star Connected Current Transformers. The International Journal of Engineering and Science (IJES), Vol.8, Issue 8, Series I, pp. 73-80.
Kastawan, I M. W. 2017. Reduction of Three-Phase Source Current Harmonics By Using of Phase-Shifting Transformer (in Bahasa). Prosiding Seminar Nasional Teknoka 2, pp E-24 - E-30. UHAMKA, Jakarta, INDONESIA.
Mahar, M. A. 2011. Harmonic Analysis of AC-DC Topologies and Their Impact on Power System. Jamshoro: Mehran University of Engineering and Technology.
Nsir. M. S. 1985. A Study of Three-Phase Bridge Rectifier Line Current Harmonics. Stillwater, Oklahoma State University.
Pinyol, R. 2011. Harmonics: Causes, Effects and Minimization. (Barcelona: SALICRU White Papers).
Pyakuryal, S. and Matin, M. 2013 Harmonic Analysis for a 6-pulse Rectifier IOSR Journal of Engineering (IOSRJEN) 3 57-60Rashid, M. H. 2011. Power electronics handbook : devices, circuits, and applications, Third Edition ed., Burlington: Elsevier Inc.
Robak, S., Wasilewski, J., Dawidowski, P., and Szewczyk, M. 2016. Variable Speed Drive (VSD) - Toward Modern Industry and Electricity Power System, Przeglad Elektrotechniczny, 92(6) 207-210.
Saidur, R., Mekhilef, S., Ali, M. B., Safari, A., and Mohammed, H. A. 2012. Applications of Variable Speed Drive in Electrical Motor energy Savings. Renewable and Sustainable Energy Reviews, 16(1) 543-550.
Toshiba. 2012. Industrial Inverter (For Three-Phase Induction Motor).

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Published
Oct 1, 2020
DOI https://doi.org/10.35313/ijatr.v1i2.30

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How to Cite
1.
Kastawan IM, Yusuf E, Fadhilah A. Design of Phase-Shifting Transformer Based on Simulink Matlab Simulation. IJATR [Internet]. 1Oct.2020 [cited 24Apr.2024];1(2):148 -162. Available from: https://ijatr.polban.ac.id/ijatr/article/view/30
Issue
Vol 1 No 2 (2020)
Section
Articles

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