CONTROL FOR HYBRID AC/DC MICROGRID WITH D-FACTS USING GENETIC ALGORITHM

Abdelazeem A. Abdelsalam, Hossam A. Gabbar, and Adel M. Sharaf

References

1. [1] R.H. Lasseter, MicroGrids, IEEE Power Engineering Society Winter Meeting, 1, 2002, 305–308.
2. [2] R. Lasseter and H.P. Paigi, Microgrid: A conceptual solution, IEEE 35th Annual Power Electronics Specialists Conference, PESC 04, 6, 2004, 4285–4290.
3. [3] H. Jiayi, J. Chuanwen, and X. Rong, A review on distributed energy resources and MicroGrid, Renewable and Sustainable Energy Reviews, 12, 2008, 2472–2483.
4. [4] P. Piagi and R.H. Lasseter, Autonomous control of microgrids, IEEE Power Engineering Society General Meeting, 2006.
5. [5] D. Bo, Y. Li, and Z. Zheng, Energy management of hybrid DC and AC bus linked microgrid, in IEEE Int. Symposium Power Electronics for Distributed Generation System, 2010, 713–716.
6. [6] C.K. Sao and P.W. Lehn, Control and power managementof converter fed microgrids, IEEE Transactions on PowerSystems, 23(3), 2008, 1088–1098.
7. [7] L. Xu and D. Chen, Control and operation of a DC microgrid with variable generation and energy storage, IEEE Transactions on Power Delivery, 26(4), 2011, 2513–2522.
8. [8] D. Chen and L. Xu, Autonomous DC voltage control of a DC microgrid with multiple slack terminals, IEEE Transactions on Power Systems, 27(4), 2012, 1897–1905.
9. [9] A.A. Radwan and Y.A.-R. Mohamed, Linear active stabilization of converter-dominated DC microgrids, IEEE Transactions on Smart Grid, 3(1), 2012, 203–216.
10. [10] D. Chen, L. Xu, and L. Yao, DC voltage variation basedautonomous control of DC microgrids, IEEE Transactions onPower Delivery, 28(2), 2013, 637–648.
11. [11] L. Xiong, W. Peng, and L. Poh Chiang, A hybrid AC/DCmicrogrid and its coordination control, IEEE Transactions on Smart Grid, 2(2), 2011, 278–286.
12. [12] B. Zhao, X. Zhang, and J. Chen, Integrated microgrid laboratory system, IEEE Transactions on Power Systems, 27(4), 2012, 2175–2185.
13. [13] M. Hamzeh, H. Karimi, and H. Mokhtari, A new controlstrategy for a multi-bus MV microgrid under unbalancedconditions, IEEE Transactions on Power Systems, 27(4), 2012, 2225–2232.
14. [14] P.H. Divshali, A. Alimardani, S.H. Hosseinian, and M. Abedi, Decentralized cooperative control strategy of microsources for stabilizing autonomous VSC-based microgrids, IEEE Transactions on Power Systems, 27(4), 2012, 1149–1159.
15. [15] T.L. Vandoorn, B. Meersman, J.D.M. De Kooning, and L.Vandevelde, Directly-coupled synchronous generators with converter behavior in islanded microgrids, IEEE Transactions on Power Systems, 27(3), 2012, 1395–1406.
16. [16] A.M. Sani and R. Iravani, Potential-function based control of a microgrid in islanded and grid-connected modes, IEEE Transactions on Power Systems, 25(4), 2010, 1883–1991.
17. [17] A. Elnady and M.A. Salama, Unified approach for mitigating voltage sag and voltage flicker using the DSTATCOM, IEEE Transactions on Power Delivery, 20(2), 2005, 992–1000.
18. [18] W.C. Lee, D.M. Lee, and T.K. Lee, New control scheme for a unified power quality compensator with minimum active power injection, IEEE Transactions on Power Delivery, 25(2), 2010, 1068–1076.
19. [19] E. Babaei., M.F. Kangarlu, and M. Sabahi, Mitigation of voltage disturbances using dynamic voltage restorer based on direct converters, IEEE Transactions on Power Delivery, 25(4), 2010, 2676–2683.
20. [20] A.M. Sharaf, W. Wang, and I.H. Altas, Novel STATCOMcontroller for reactive power compensation in distributionnetworks with dispersed renewable wind energy, 20th IEEECanadian Conference on Electrical and Computer EngineeringCCECE ’07, 2007, 3648–3654.
21. [21] M. Aredes, K. Heumann, and E.H.Watanabe, An universalactive power line conditioner, IEEE Transactions on PowerDelivery, 13(2), 1998, 545–557.
22. [22] T. Ackermann, Wind Power in Power System (Hoboken, NewJersey: John Wiley & Sons Ltd., 2005), 53–78.
23. [23] I.H. Altas and A.M. Sharaf, A novel photovoltaic on-line search algorithm for maximum energy utilization, Proc. Int. Conf. on Communication, Computer and Power, ICCCP, Oman, 2007.
24. [24] B. Viswanathan and M. Aulice Scibioh, Fuel Cells Principles and Applications (LLC: CRC Press, 2007).
25. [25] P. Sethakul, S. Rael, B. Davat, and P. Thounthong, Fuel cell high-power applications, IEEE Industrial Electronics Magazine, 3, 2009, 32–36.
26. [26] A.M. Sharaf, A.A. Abdelsalam, A.A. Eldesouky, and A.A.Sallam, A novel FACTS based modulated power filter com-pensation scheme for smart electric grid stabilization and efficient utilization, International Journal of Distributed Energy Resources, 7(4), 2011, 311–328.
27. [27] A.M. Sharaf and A.A. Abdelsalam, A novel FACTS baseddynamic voltage compensation scheme for smart electric gridstabilization and efficient utilization, The 24th IEEE Cana-dian Conference on Electrical and Computer Engineering,CCECE’11, 2011, 42–47.
28. [28] E. Elbakush, A.M. Sharaf, I.H. Altas, A novel green plug filter compensation scheme for electric vehicle DC drive, International Symposium on Innovations in Intelligent Systems and Applications (INISTA), 2011, 599–605.
29. [29] L. Davis, Handbooks of Genetic Algorithm (New York, NY: Van Nostrand, Reinhold, 1991).
30. [30] IEEE Std 519-1992: IEEE Recommended Practices and Re-quirements for Harmonic Control in Electrical Power Systems, 1993.

Important Links:

• Abstract
• DOI: 10.2316/Journal.203.2014.2.203-0099
• From Journal (203) International Journal of Power and Energy Systems - 2014

Go Back