Research Article
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Year 2018, Volume: 6 Issue: 1, 47 - 52, 15.02.2018
https://doi.org/10.17694/bajece.402009

Abstract

References

  • [1] H Akagi, E H Watanabe and M Aredes, Instantaneous Power Theory and Applications to Power Conditioning. Piscataway, NJ: IEEE Press, 2007.
  • [2] I Axente, M Basu, M F Conlon, A Control Approach for UPQC Connected to Weak Supply Point, UPEC 2007, p. 619-623.
  • [3] I Axente, J N Ganesh, M Basu, M F Conlon, K Gaughan, A 12-kVA DSP-Controlled Laboratory Prototype UPQC Capable of Mitigating Unbalance in Source Voltage and Load Current , IEEE Trans Power Electronics, Vol. 25(6), 2010, pp. 1471 - 1479.
  • [4] S K. Khadem, M Basu, and M F Conlon, UPQC for power quality improvement in DG integrated smart grid network—A review, Int. J. Emerg. Electr. Power Syst., 2012, vol. 13(1), article 3.
  • [5] S K Khadem, M Basu, M F Conlon, Intelligent Islanding and Seamless Reconnection Technique for Microgrid With UPQC," Emerging and Selected Topics in Power Electronics, IEEE Journal of , 2015, vol.3(2), pp.483-492.
  • [6] S K Khadem, M Basu, and M F Conlon, A new placement and integration method of UPQC to improve the power quality in DG network, UPEC 2013, vol. 1. pp. 1–6.
  • [7] S K Khadem, M Basu and M F Conlon, Harmonic power compensation capacity of shunt active power filter and its relationship with design parameters, IET Power Electron., 2013, vol. 7(2), pp. 418–430.
  • [8] S.K. Khadem, “Power quality improvement of distributed generation integrated network with unified power quality conditioner”, Ph.D. dissertation, Dept. Elect. Electron. Eng., Dublin Inst. Technol., Ireland, Europe, Jan. 2013.
  • [9] M. Abdusalam, P. Poure, S. Karimia, S. Saadate, New Digital Reference Current Generation for Shunt Active Power Filter under Distorted Voltage Conditions, Electric Power Systems Research, 2009, vol. 79, pp 759-76.
  • [10] A. Ghamri , M. T. Benchouia, A. Golea Sliding-Mode Control Based Three-Phase Shunt Active Power Filter, Simulation and Experimentation, Electric Power Components and Systems, 2012, vol. 40, no. 4, pp. 383-398.
  • [11] S. Biricik, S. Redif, O.C.Ozerdem, M Basu, Control of the Shunt Active Power Filter under Non-Ideal Grid Voltage and Unbalanced Load Conditions, UPEC 2013, Dublin, Ireland.
  • [12] S S Patnaik, A K Panda, Real-Time Performance Analysis and Comparison of Various Control Schemes for Particle Swarm Optimization-Based Shunt Active Power Filters, Electrical Power and Energy Systems 52 (2013), pp. 185–197.
  • [13] S. Biricik, S. Redif, O.C.Ozerdem, S. K. Khadem, M Basu, Real-Time Control of Shunt Active Power Filter under Distorted Grid Voltage and Unbalanced Load Condition using Self Tuning Filter, IET Power Electronics (2014)
  • [14] S. Biricik, O.C.Ozerdem, S. Redif and M.O.I. Kmail, Performance Improvement of Active Power Filter under Distorted and Unbalanced Grid Voltage Conditions, Journal of Electronics and Electrical Engineering, 2013, Vol. 19, No.1, pp 35-39.
  • [15] S.Biricik, O.C.Ozerdem, S.Redif and M.O.I.Kmail, Novel Hybrid Active Power Filter Structure To Compensate Harmonic Currents and Reactive Power, MELECON 2012, 25-28 Mart 2012, Tunisia.
  • [16] S. Biricik, S. K. Khadem, S. Redif, M Basu, Control of the Dynamic Voltage Restorer to Improve Voltage Quality, PEDG 2014, Galway, Ireland.

Design of Unified Power Quality Conditioner for Power Quality Improvement in Distribution Network

Year 2018, Volume: 6 Issue: 1, 47 - 52, 15.02.2018
https://doi.org/10.17694/bajece.402009

Abstract

Unified Power Quality
Conditioner (UPQC) is one of the most advanced Custom-Power-Devices in use
today to improve the quality of Power (PQ) in the distribution network. UPQC
compensates both voltage and current related PQ disturbances. Its control in
unbalanced and distorted weak grid condition is of research interest. Also the
performance of UPQC in the presence of unbalanced and non-linear harmonic loads
is critical to maintain desirable PQ. In this work, a Self-Tuning Filter (STF)
is implemented on the controller part to improve the performance of UPQC in the
weak grid voltage along with current unbalance and distortion. The studied
control structure gives an adequate voltage and current compensation for
voltage sag with distorted voltage conditions, and also for unbalanced current
conditions. A three-phase system is modelled in MATLAB/Simulink. The results of
simulation study are presented to verify the effectiveness of the proposed
control technique.

References

  • [1] H Akagi, E H Watanabe and M Aredes, Instantaneous Power Theory and Applications to Power Conditioning. Piscataway, NJ: IEEE Press, 2007.
  • [2] I Axente, M Basu, M F Conlon, A Control Approach for UPQC Connected to Weak Supply Point, UPEC 2007, p. 619-623.
  • [3] I Axente, J N Ganesh, M Basu, M F Conlon, K Gaughan, A 12-kVA DSP-Controlled Laboratory Prototype UPQC Capable of Mitigating Unbalance in Source Voltage and Load Current , IEEE Trans Power Electronics, Vol. 25(6), 2010, pp. 1471 - 1479.
  • [4] S K. Khadem, M Basu, and M F Conlon, UPQC for power quality improvement in DG integrated smart grid network—A review, Int. J. Emerg. Electr. Power Syst., 2012, vol. 13(1), article 3.
  • [5] S K Khadem, M Basu, M F Conlon, Intelligent Islanding and Seamless Reconnection Technique for Microgrid With UPQC," Emerging and Selected Topics in Power Electronics, IEEE Journal of , 2015, vol.3(2), pp.483-492.
  • [6] S K Khadem, M Basu, and M F Conlon, A new placement and integration method of UPQC to improve the power quality in DG network, UPEC 2013, vol. 1. pp. 1–6.
  • [7] S K Khadem, M Basu and M F Conlon, Harmonic power compensation capacity of shunt active power filter and its relationship with design parameters, IET Power Electron., 2013, vol. 7(2), pp. 418–430.
  • [8] S.K. Khadem, “Power quality improvement of distributed generation integrated network with unified power quality conditioner”, Ph.D. dissertation, Dept. Elect. Electron. Eng., Dublin Inst. Technol., Ireland, Europe, Jan. 2013.
  • [9] M. Abdusalam, P. Poure, S. Karimia, S. Saadate, New Digital Reference Current Generation for Shunt Active Power Filter under Distorted Voltage Conditions, Electric Power Systems Research, 2009, vol. 79, pp 759-76.
  • [10] A. Ghamri , M. T. Benchouia, A. Golea Sliding-Mode Control Based Three-Phase Shunt Active Power Filter, Simulation and Experimentation, Electric Power Components and Systems, 2012, vol. 40, no. 4, pp. 383-398.
  • [11] S. Biricik, S. Redif, O.C.Ozerdem, M Basu, Control of the Shunt Active Power Filter under Non-Ideal Grid Voltage and Unbalanced Load Conditions, UPEC 2013, Dublin, Ireland.
  • [12] S S Patnaik, A K Panda, Real-Time Performance Analysis and Comparison of Various Control Schemes for Particle Swarm Optimization-Based Shunt Active Power Filters, Electrical Power and Energy Systems 52 (2013), pp. 185–197.
  • [13] S. Biricik, S. Redif, O.C.Ozerdem, S. K. Khadem, M Basu, Real-Time Control of Shunt Active Power Filter under Distorted Grid Voltage and Unbalanced Load Condition using Self Tuning Filter, IET Power Electronics (2014)
  • [14] S. Biricik, O.C.Ozerdem, S. Redif and M.O.I. Kmail, Performance Improvement of Active Power Filter under Distorted and Unbalanced Grid Voltage Conditions, Journal of Electronics and Electrical Engineering, 2013, Vol. 19, No.1, pp 35-39.
  • [15] S.Biricik, O.C.Ozerdem, S.Redif and M.O.I.Kmail, Novel Hybrid Active Power Filter Structure To Compensate Harmonic Currents and Reactive Power, MELECON 2012, 25-28 Mart 2012, Tunisia.
  • [16] S. Biricik, S. K. Khadem, S. Redif, M Basu, Control of the Dynamic Voltage Restorer to Improve Voltage Quality, PEDG 2014, Galway, Ireland.
There are 16 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Araştırma Articlessi
Authors

Samet Biricik This is me

Publication Date February 15, 2018
Published in Issue Year 2018 Volume: 6 Issue: 1

Cite

APA Biricik, S. (2018). Design of Unified Power Quality Conditioner for Power Quality Improvement in Distribution Network. Balkan Journal of Electrical and Computer Engineering, 6(1), 47-52. https://doi.org/10.17694/bajece.402009

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