ANALYSIS OF MULTIPHASE TRANSFORMER FOR STATIC LOAD

Authors

  • Nor Azizah Mohd Yusoff FKE, Universiti Teknikal Malaysia Melaka, Malaysia
  • Kasrul Abdul Karim FKE, Universiti Teknikal Malaysia Melaka, Malaysia
  • Sharin Ab Ghani FKE, Universiti Teknikal Malaysia Melaka, Malaysia
  • Siti Azura Ahmad Tarusan FKE, Universiti Teknikal Malaysia Melaka, Malaysia

DOI:

https://doi.org/10.11113/jt.v75.3980

Keywords:

Five Phase, multi-winding transformer, Finite Element Method (FEM), hardware fabrication

Abstract

In the year of 1970 saw the starting invention of the five phase motor as the milestone in advanced electrical motor. Through the years, there are many researchers who passionately worked towards developing for multiphase drive system. They had developed a static transformation system to obtain a multiphase supply from the available three phase supply. This idea gives an influence for further development in electric machines as an example; an efficient solution for bulk power transfer. This paper presents the ability of Finite Element Method to proof the theory and concept in design multiphase transformer before proceeds to the fabrication stages. Identifying of specification on a real transformer had been done before applied in software modelling. The final part of this paper deals with the hardware construction of multiphase system with the static load to see the effect of phase current on variation of load.

Author Biography

  • Nor Azizah Mohd Yusoff, FKE, Universiti Teknikal Malaysia Melaka, Malaysia
    Master's Student of Power Electronics and Drive Department

References

Sunil, K., Shalini, J., P. G. V Suresh Kumar. and Fikadu Wakijira. 2013. Development of Three Phase To Five Phase Transformer Using a Novel Technique. 4(3).

N. Monika, V. Samhita, P. V Swetha, and B. Somashekar. 2013. Modelling and Simulation of Three-Phase to Five-Phase Transformation Using a Special Transformer Connection. 3(5): 798-807.

A. Iqbal, S. Moinuddin, M. R. Khan, S. M. Ahmed, and H. Abu-Rub. Jul. 2010. A Novel Three-Phase to Five-Phase Transformation Using a Special Transformer Connection. IEEE Trans. Power Deliv. 25(3): 1637-1644.

A. S. Abdel-Khalik, Z. Shafik, a. Elserougi, S. Ahmed, and a. Massoud. May 2014. A Static Three-phase to Five-phase Transformer Based on Scott Connection. Electr. Power Syst. Res. 110: 84-93.

K. Lanka, T. Kambhampati, B. Kumar, and M. Kalyan. 2013. Three Phase to Five-Phase Transformation Using a Special Transformer Connection. I: 1–11.

L. S. Goud and T. Srivani. 2013. A Simulation of Three Phase to Multi Phase Transformation using a Special Transformer. 2(7): 351-357.

Wang, H., Member, S., & Butler, K. L. 2001. Distribution Transformers. 16(3): 422-428.

Behjat, V., & Vahedi, a. 2011. Numerical Modelling of Transformers Interturn Faults and Characterising the Faulty Transformer Behaviour Under Various Faults and Operating Conditions. IET Electric Power Applications. 5(5): 415. doi:10.1049/iet-epa.2010.0095.

M. S. A. Khiar and I. S. Chairul. 2012. Conditions from SFRA Measurement Results Transformers. June: 6-7.

H. T. Jaya. A Review of Finite Element Method in Detecting Incipient Faults Occur in Power Transformer. 2-6.

S. Ruangsinchaiwanich and K. Khongseephai. 2009. Investigation of transformer performance by the finite element method. Int. Conf. Electr. Mach. Syst., pp. 1–6.

H.-M. Ahn, B.-J. Lee, and S.-C. Hahn. 2011. An Efficient Investigation of Coupled Electromagnetic-Thermal-Fluid Numerical Model for Temperature Rise Prediction of Power Transformer. Int. Conf. Electr. Mach. Syst. 1–4.

S. C. Bell and P. S. Bodger. 2007. Power Transformer Design Using Magnetic Circuit Theory and Finite Element Analysis—A Comparison of Techniques. Australas. Univ. Power Eng. Conf. 1-6.

S. Liu, Z. Liu, and O. a. Mohammed. 2007. FE-Based Modeling of Single-Phase Distribution Transformers With Winding Short Circuit Faults. IEEE Trans. Magn. 43(4): 1841-1844.

M. R. Khan and S. M. Ahmed. 2012. Three-Phase to Seven-Phase Power. 27(3): 757-766.

P. S. Georgilakis. 2009. Recursive Genetic Algorithm-Finite Element Method Technique for the Solution of Transformer Manufacturing Cost Minimisation Problem. IET Electr. Power Appl. 3(6): 514.

Yuxing Wang, Jie Pan and Ming Jin. 2011. Finite Element Modeling of the Vibration of a Power Transformer. The University of Western Australia,

Hyun-Mo Ahn, Yeon-Ho Oh, Joong-Kyoung Kim, Jae-Sung Song, and Sung-Chin Hahn. 2012. Experimental Verification and Finite Element Analysis of Short-circuit Electromagnetic Force for Dry-Type Transformer. IEEE Trans. on Power Magnetics. 486(2): 819-822.

E. Levi, I. N. W. Satiawan, N. Bodo, S. Member, and M. Jones. 2012. A Space-Vector Modulation Scheme for Multilevel Open-End Winding Five-Phase Drives. 27(1): 1-10.

M. Heindi, S. Tehbolen and R. Wimmer. 2011. Transformer Modeling Based on Standard Frequency Measurement. XVII International Symposium on High Voltage Engineering, Hannover, Germany.

A. Iqbal, S. M. Ieee, S. M. Ahmed, S. M. Ieee, A. Khan, M. R. Khan, H. Abu-rub, and S. M. Ieee. 2010. Modeling Simulation and Implementation of a Five-Phase Induction Motor Drive System.

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Published

2015-06-21

Issue

Section

Science and Engineering

How to Cite

ANALYSIS OF MULTIPHASE TRANSFORMER FOR STATIC LOAD. (2015). Jurnal Teknologi (Sciences & Engineering), 75(1). https://doi.org/10.11113/jt.v75.3980