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Year 2012, Volume: 25 Issue: 4, 887 - 899, 20.02.2012

Abstract

References

  • IEEE-Std 1100-1999, “IEEE Recommended Practice for Powering and Grounding Electronic Equipment”, New York, IEEE (1999).
  • IEEE Std 1195-1995, “IEEE Recommended Practice for Monitoring Electric Power Quality”, IEEE Standard Coordinating Committee 22 on Power Quality, Approved June 14, (1995).
  • Pop, G., Chindris, M. and Bindiu, R., “Determination of Power Losses in Transformers Working in Unbalanced and Harmonic Polluted Networks”, Analele Universitatii din Oradea Fascicula de Energetica, 15:113-118, (2009).
  • Rudnick, H., Dixon, J. and Moran, L., “Delivering clean and pure power”, IEEE Power and Energy Magazine, 1(5): 32–40, (2003).
  • Ahmadi, G., and Shahrtash, S. M., “Neutral to Earth Voltage Analysis in Harmonic colluted Distribution Networks with Multi-Grounded Neutrals”, Engineering and Technology, Dubai, 37: 905- 909, (2009). of Science,
  • El-Habrouk, M., Darwish, M. K. and Mehta, P., “Active Power Filter: A Review”, IEE Proc.- Electr. Power Appl., 147(5): 403-412, (2000).
  • Leon, A. E., Solsona, J. A., Busada, C, Chiacchiarini, H. and Ines Valla, M., “High- performance control of a three-phase voltage- source compensation of the estimated load current”, Energy Conversion and Management, 50(8): 2000-2008 (2009). feed forward
  • Zanchetta, P., Sumner, M., Marinelli, M. and Cupertino, F., “Experimental modeling and control design of shunt active power filters”, Control Engineering Practice, 17: 1126–1135, (2009).
  • Charles, S. and Bhuvaneswari, G., “Comparison of Three Phase Shunt Active Power Filter S. and Venkataramanan G,
  • “Comparative evaluation of PWM AC-AC
  • converters”, IEEE Power Electronic Specialist
  • Conference, PESC, 529-535 (1995).
  • Sabahi, M., Hosseini, S. H., Bannae Sharifian, M. B., Yazdanpanah Goharrizi, A. and Gharehpetian, G. B., “Three-Phase Dimmable Lighting System Using Transformer”, IEEE Trans. Power Electronics, 24(3): 830-837 (2009). Power Electronic
  • Aijuan, J., Hangtian, L. and Shaolong L., “A Three-Phase Four-Wire High-Frequency AC Link Matrix Transformer”, Eighth International Conference on Electrical Machines and Systems ICEMS, :1295-1300, (2005). Power Electronic
  • Ronan, E. R., Sudhoff, S. D., Glover, S. F. and Galloway, D. L, “A power electronic-based distribution transformer”, IEEE Trans. on Power Delivery., 17: 537 – 543, (2002).
  • Iman-Eini, H., Schanen, J. L., Farhangi, Sh., Barbaroux, J. and Keradec JP, “A Power Electronic Based Transformer for Feeding Sensitive Loads”, IEEE Power Electronics Specialists Conference. PESC,: 2549–2555, (2008).
  • Iman-eini, H. and Farhangi, Sh., “Analysis and design of power electronic transformer for medium voltage levels”, IEEE Power Electronic Specialist Conference, PESC,1- 5, (2006).
  • Liu, H., Mao, C., Lu, J. M. and Wang, D., “Electronic supercapacitors storage energy system”, Electric. Power Syst. Res, 79: 1200-1208, (2009). with
  • Wang, D., Mao, C. and Lu, J., “Coordinated control of EPT and generator excitation system for system”, IEEE Trans. Power Deliver. 23(1): 371–379, (2008). transmission-lines
  • Liu, H., Mao, C., Lu, J. M. and Wang, D., “Optimal regulator-based control of electronic power transformer for distribution systems”, Electric. Power Syst. Res, 79: 863–870, (2009).
  • Wang, D., Mao, C., Lu, J., Fan, S. and Peng, F. Z., “Theory and application of distribution electronic power transformer”, Electric. Power Syst. Res; 77: 219–226, (2007).
  • Zhao, T., Wang, G., Zeng, J., Dutta, S., Bhattacharya, S. and Huang, A. Q., “Voltage and power balance control for a cascaded multilevel solid state transformer”, IEEE Appl. Power Electron. Conf. 761–767, (2010).
  • Shi, J., Gou, W., Yuan, H., Zhao, T. and Huang A. Q, “Research on Voltage and Power Balance Control for Cascaded Modular Solid-State Transformer”, IEEE Transactions on Power Electronics, 26(4): 1154-1166, (April 2011).

Four-wire Solid State Transformer to Improve Current Quality

Year 2012, Volume: 25 Issue: 4, 887 - 899, 20.02.2012

Abstract

Solid state transformers (SST) are used to perform typical functions and improve power quality in series operation of three-phase power systems. Generally, current harmonics and unbalances and neutral wire current are generated due to nonlinear, unbalance load and supply voltage distortion. In this paper operation of three-phase four-wire SST to improve current harmonics, current unbalances, neutral wire current and reactive power of nonlinear load as an active filter synchronous by feeding linear load is analyzed and application of AC/DC converter with four legs and it's controller to compensation of neutral wire current and current quality in the input stage of SST is investigated. Power quality improvement with SST has been verified by simulation results using MATLAB/SIMULINK. The results show that SST and its controller has very good performances, and it can not only realize the functions of series operation, but also can prevent from harmonics injecting and unbalances by parallel operation. Besides, proposed controller makes neutral wire current of voltage source becomes almost zero in four-wire distribution system.

References

  • IEEE-Std 1100-1999, “IEEE Recommended Practice for Powering and Grounding Electronic Equipment”, New York, IEEE (1999).
  • IEEE Std 1195-1995, “IEEE Recommended Practice for Monitoring Electric Power Quality”, IEEE Standard Coordinating Committee 22 on Power Quality, Approved June 14, (1995).
  • Pop, G., Chindris, M. and Bindiu, R., “Determination of Power Losses in Transformers Working in Unbalanced and Harmonic Polluted Networks”, Analele Universitatii din Oradea Fascicula de Energetica, 15:113-118, (2009).
  • Rudnick, H., Dixon, J. and Moran, L., “Delivering clean and pure power”, IEEE Power and Energy Magazine, 1(5): 32–40, (2003).
  • Ahmadi, G., and Shahrtash, S. M., “Neutral to Earth Voltage Analysis in Harmonic colluted Distribution Networks with Multi-Grounded Neutrals”, Engineering and Technology, Dubai, 37: 905- 909, (2009). of Science,
  • El-Habrouk, M., Darwish, M. K. and Mehta, P., “Active Power Filter: A Review”, IEE Proc.- Electr. Power Appl., 147(5): 403-412, (2000).
  • Leon, A. E., Solsona, J. A., Busada, C, Chiacchiarini, H. and Ines Valla, M., “High- performance control of a three-phase voltage- source compensation of the estimated load current”, Energy Conversion and Management, 50(8): 2000-2008 (2009). feed forward
  • Zanchetta, P., Sumner, M., Marinelli, M. and Cupertino, F., “Experimental modeling and control design of shunt active power filters”, Control Engineering Practice, 17: 1126–1135, (2009).
  • Charles, S. and Bhuvaneswari, G., “Comparison of Three Phase Shunt Active Power Filter S. and Venkataramanan G,
  • “Comparative evaluation of PWM AC-AC
  • converters”, IEEE Power Electronic Specialist
  • Conference, PESC, 529-535 (1995).
  • Sabahi, M., Hosseini, S. H., Bannae Sharifian, M. B., Yazdanpanah Goharrizi, A. and Gharehpetian, G. B., “Three-Phase Dimmable Lighting System Using Transformer”, IEEE Trans. Power Electronics, 24(3): 830-837 (2009). Power Electronic
  • Aijuan, J., Hangtian, L. and Shaolong L., “A Three-Phase Four-Wire High-Frequency AC Link Matrix Transformer”, Eighth International Conference on Electrical Machines and Systems ICEMS, :1295-1300, (2005). Power Electronic
  • Ronan, E. R., Sudhoff, S. D., Glover, S. F. and Galloway, D. L, “A power electronic-based distribution transformer”, IEEE Trans. on Power Delivery., 17: 537 – 543, (2002).
  • Iman-Eini, H., Schanen, J. L., Farhangi, Sh., Barbaroux, J. and Keradec JP, “A Power Electronic Based Transformer for Feeding Sensitive Loads”, IEEE Power Electronics Specialists Conference. PESC,: 2549–2555, (2008).
  • Iman-eini, H. and Farhangi, Sh., “Analysis and design of power electronic transformer for medium voltage levels”, IEEE Power Electronic Specialist Conference, PESC,1- 5, (2006).
  • Liu, H., Mao, C., Lu, J. M. and Wang, D., “Electronic supercapacitors storage energy system”, Electric. Power Syst. Res, 79: 1200-1208, (2009). with
  • Wang, D., Mao, C. and Lu, J., “Coordinated control of EPT and generator excitation system for system”, IEEE Trans. Power Deliver. 23(1): 371–379, (2008). transmission-lines
  • Liu, H., Mao, C., Lu, J. M. and Wang, D., “Optimal regulator-based control of electronic power transformer for distribution systems”, Electric. Power Syst. Res, 79: 863–870, (2009).
  • Wang, D., Mao, C., Lu, J., Fan, S. and Peng, F. Z., “Theory and application of distribution electronic power transformer”, Electric. Power Syst. Res; 77: 219–226, (2007).
  • Zhao, T., Wang, G., Zeng, J., Dutta, S., Bhattacharya, S. and Huang, A. Q., “Voltage and power balance control for a cascaded multilevel solid state transformer”, IEEE Appl. Power Electron. Conf. 761–767, (2010).
  • Shi, J., Gou, W., Yuan, H., Zhao, T. and Huang A. Q, “Research on Voltage and Power Balance Control for Cascaded Modular Solid-State Transformer”, IEEE Transactions on Power Electronics, 26(4): 1154-1166, (April 2011).
There are 23 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Electrical & Electronics Engineering
Authors

Mohamad Reza Banaei

Ebrahim Salary This is me

Publication Date February 20, 2012
Published in Issue Year 2012 Volume: 25 Issue: 4

Cite

APA Banaei, M. R., & Salary, E. (2012). Four-wire Solid State Transformer to Improve Current Quality. Gazi University Journal of Science, 25(4), 887-899.
AMA Banaei MR, Salary E. Four-wire Solid State Transformer to Improve Current Quality. Gazi University Journal of Science. October 2012;25(4):887-899.
Chicago Banaei, Mohamad Reza, and Ebrahim Salary. “Four-Wire Solid State Transformer to Improve Current Quality”. Gazi University Journal of Science 25, no. 4 (October 2012): 887-99.
EndNote Banaei MR, Salary E (October 1, 2012) Four-wire Solid State Transformer to Improve Current Quality. Gazi University Journal of Science 25 4 887–899.
IEEE M. R. Banaei and E. Salary, “Four-wire Solid State Transformer to Improve Current Quality”, Gazi University Journal of Science, vol. 25, no. 4, pp. 887–899, 2012.
ISNAD Banaei, Mohamad Reza - Salary, Ebrahim. “Four-Wire Solid State Transformer to Improve Current Quality”. Gazi University Journal of Science 25/4 (October 2012), 887-899.
JAMA Banaei MR, Salary E. Four-wire Solid State Transformer to Improve Current Quality. Gazi University Journal of Science. 2012;25:887–899.
MLA Banaei, Mohamad Reza and Ebrahim Salary. “Four-Wire Solid State Transformer to Improve Current Quality”. Gazi University Journal of Science, vol. 25, no. 4, 2012, pp. 887-99.
Vancouver Banaei MR, Salary E. Four-wire Solid State Transformer to Improve Current Quality. Gazi University Journal of Science. 2012;25(4):887-99.