AN ADAPTIVE FUZZY PI CONTROLLER FOR PERFORMANCE ENHANCEMENT OF MICROGRID POWER QUALITY CONDITIONER

Vigneysh Thangavel and Kumarappan Narayanan

References

  1. [1] K.T. Tan, P.L. So, and Y.C. Chu, Control of parallel inverter-interfaced distributed generation systems in microgrid for islanded operation, Proc. Int. Conf. on Probability MethodsApplied to Power Systems, Singapore, 2010, 1–5.
  2. [2] J.A. Peas Lopes, C.L. Moreira, and A.G. Madureira, Definingcontrol strategies for microgrids islanded operation, IEEETransactions on Power Systems, 21(4), 2006, 916–924.
  3. [3] Z. Xiao, J. Wu, and N. Jenkins, An overview of microgridcontrol, Intelligent Automation & Soft Computing, 16(2), 2013,199–212.
  4. [4] P. Li, X. Yu, J. Zhang, and Z. Yin, The control methodof grid-tied photovoltaic generation, IEEE Transactions onSmart Grid, 6(4), 2015, 1670–1677.
  5. [5] M. Singh, V. Khadkikar, A. Chandra, and R.K. Varma, Gridinterconnection of renewable energy sources at the distributionlevel with power-quality improvement features, IEEE Trans-actions on Power Delivery, 26(1), 2011, 307–315.
  6. [6] X. Tang, K.M. Tsang, and W.L. Chan, A power qualitycompensator with DG interface capability using repetitivecontrol, IEEE Transactions on Energy Conversion, 27(2),2012, 213–219.
  7. [7] J. He, Y. Li, and F. Blaabjerg, Flexible microgrid powerquality enhancement using adaptive hybrid voltage and currentcontroller, IEEE Transactions on Industrial Electronics, 61(6),2014, 2784–2794.
  8. [8] A. Banerji, S.K. Biswas, and B. Singh, Enhancing quality ofpower to sensitive loads with microgrid, IEEE Transactionson Industrial Applications, 52(1), 2016, 360–368.
  9. [9] J.M. Guerrero, P.C. Loh, T.-L. Lee, and M. Chandorkar,Advanced control architectures for intelligent microgrids—PartII: Power quality, energy storage, ac/dc microgrids, IEEETransactions on Industrial Electronics, 60(4), 2013, 1263–1270.
  10. [10] M.V. Manoj Kumar, M.K. Mishra, and C. Kumar, A grid-connected dual voltage source inverter with power quality improvement features, IEEE Transactions on Sustainable Energy,6(2), 2015, 482–490.
  11. [11] H. Li, H. Zhang, F. Ma, and W. Bao, Modeling, control andsimulation of grid-connected PV system with D-STATCOM,Proc. IEEE Int. Conf. on System Science and Engineering,Shanghai, China, 2014, 27–30.
  12. [12] R. Majumder, Reactive power compensation in single-phaseoperation of microgrid, IEEE Transactions on Industrial Electronics, 60(4), 2013, 1403–1416.
  13. [13] S.R. Arya, K. Kant, R. Niwas, B. Singh, A. Chandra, and K.Al-Haddad, Power quality improvement in isolated distributedgenerating system using DSTATCOM, Proc. IEEE IndustrialApplications Society Annual Meeting, Vancouver, Canada,2014, 1–8.
  14. [14] H. Fujita and H. Akagi, Voltage-regulation performance ofa shunt active filter intended for installation on a powerdistribution system, IEEE Transactions on Power Electronics,22(3), 2007, 1046–1053.
  15. [15] T.-L. Lee, S.-H. Hu, and Y.-H. Chan, D-STATCOM withpositive sequence admittance and negative-sequence conductance to mitigate voltage fluctuations in high-level penetration of distributed-generation systems, IEEE Transactions onIndustrial Electronics, 60(4), 2013, 1417–1428.
  16. [16] N.J. Patil, R.H. Chile, and L.M. Waghmare, A new approachto adaptive fuzzy PI controller using output scaling factor andreference models, Control and Intelligent Systems, 41(1), 2013,1–12.
  17. [17] H. Ying, Fuzzy control and modeling: analytical foundationsand applications, 1st ed. (USA: Wiley-IEEE Press, 2000),43–55.
  18. [18] P. Veena, R. Jeyabharath, and M. Rajaram, Performanceimprovement of direct torque control for switched reluctancemotor using neuro-fuzzy controller, Control and IntelligentSystems, 38(3), 2010, 156–163.
  19. [19] E. Kamal, A. Aitouche, R. Ghorbani, and M. Bayart, Intelligentcontrol of WECS subject to parameter uncertainties, actuatorand sensor faults, Control and Intelligent Systems, 40(3), 2012,1–9.
  20. [20] Y. Kanthaphayao and V. Chunkag, Current-sharing bus andfuzzy gain scheduling of proportional–integral controller tocontrol a parallel-connected AC/DC converter, IET PowerElectronics, 7(10), 2014, 2525–2532.
  21. [21] T. Vigneysh and N. Kumarappan, Autonomous operation andcontrol of photovoltaic/solid oxide fuel cell/battery energy storage based microgrid using fuzzy logic controller, InternationalJournal of Hydrogen Energy, 41(3), 2016, 1877–1891.
  22. [22] A. Eid, Utility integration of PV-wind-fuel cell hybrid distributed generation systems under variable load demands, International Journal of Electrical Power & Energy Systems, 62,2014, 689–699.
  23. [23] R.W. Erickson and D. Maksimovic, Fundamentals of powerelectronics, 2nd ed. (US: Springer, 2001), 131–184.
  24. [24] O. Tremblay, L.A. Dessaint, and A.I. Dekkiche, A genericbattery model for the dynamic simulation of hybrid electricvehicles, Proc. IEEE Vehicle Power and Propulsion Conference,Arlington, Texas, USA, 2007, 284–289.
  25. [25] S.K. Ayyappa and D.N. Gaonkar, Performance analysis ofa variable-speed wind and fuel cell-based hybrid distributedgeneration system in grid-connected mode of operation, ElectricPower Components and Systems, 44(2), 2016, 142–151.
  26. [26] M.A. Hassan and M.A. Abido, Optimal design of microgrids inautonomous and grid-connected modes using particle swarmoptimization, IEEE Transactions on Power Electronics, 26(3),2011, 755–769.
  27. [27] K. De Brabandere, B. Bolsens, J. Van den Keybus, and R.Belmans, A voltage and frequency droop control method forparallel inverters, IEEE Transactions on Power Electronics,22(4), 2007, 1107–1115.
  28. [28] P. Kumar, N. Kumar, and A.K. Akella, A simulation based casestudy for control of DSTATCOM, ISA Transactions, 53(3),2014, 767–775.

Important Links:

Go Back