DISTRIBUTED STORAGE APPROACH VERSUS SINGULAR STORAGE APPROACH: A DYNAMIC STABILITY EVALUATION

Hailiya Ahsan and Mairaj ud Din Mufti

References

  1. [1] H.M. Hasanien, A set-membership affine projection algorithm-based adaptive-controlled SMES units for wind farms outputpower smoothing, IEEE Transactions on Sustainable Energy,5(4), 2014, 1226–1233.
  2. [2] S. Heier, Grid integration of wind energy: Onshore and offshoreconversion systems (New York, NY: John Wiley & Sons, 2014).
  3. [3] ´A. Ortega and F. Milano, Modeling, simulation, and compar-ison of control techniques for energy storage systems, IEEETransactions on Power Systems, 32(3), 2017, 2445–2454.
  4. [4] B.C. Pal, A.H. Coonick, I.M. Jaimoukha, and H. El-Zobaidi,A linear matrix inequality approach to robust damping controldesign in power systems with superconducting magnetic energystorage device, IEEE Transactions on Power Systems, 15(1),2000, 356–362.
  5. [5] M. Mufti, S. Iqbal, S. Lone, and Q.-U. Ain, Supervisoryadaptive predictive control scheme for supercapacitor energystorage system, IEEE Systems Journal, 9(3), 2015, 1020–1030.
  6. [6] M.H. Ali, M. Park, I.-K. Yu, T. Murata, and J. Tamura, Im-provement of wind-generator stability by fuzzy-logic-controlledSMES, IEEE Transactions on Industry Applications, 45(3),2009, 1045–1051.
  7. [7] M.H. Ali, B. Wu, and R.A. Dougal, An overview of SMESapplications in power and energy systems, IEEE Transactionson Sustainable Energy, 1(1), 2010, 38–47.
  8. [8] S.S. Chen, L. Wang, W.J. Lee, and Z. Chen, Power flowcontrol and damping enhancement of a large wind farm using asuperconducting magnetic energy storage unit, IET RenewablePower Generation, 3(1), 2009, 23–38.
  9. [9] L. Wang and D.-N. Truong, Stability enhancement of DFIG-based offshore wind farm fed to a multi-machine system usinga statcom, IEEE Transactions on Power Systems, 28(3), 2013,2882–2889.
  10. [10] M.Y. Zargar, M.U.-D. Mufti, and S.A. Lone, Adaptive predic-tive control of a small capacity SMES unit for improved fre-quency control of a wind-diesel power system, IET RenewablePower Generation, 11(14), 2017, 1832–1840.
  11. [11] S. Iqbal, M. Mufti, S. Lone, and I. Mushtaq, Intelligentlycontrolled superconducting magnetic energy storage for im-proved load frequency control, International Journal of Power& Energy Systems, 29(4), 2009, 241.
  12. [12] T. Katagiri, H. Nakabayashi, Y. Nijo, T. Tamada, T. Noda,N. Hirano, T. Nagata, S. Nagaya, M. Yamane, Y. Ishii, et al.,Field test result of 10 MVA/20 MJ SMES for load fluctu-ation compensation, IEEE Transactions on Applied Super-conductivity, 19(3), 2009, 1993–1998.
  13. [13] H. Ahsan, Z. Salam, S.A. Lone, et al., Modeling and simulationof an energy storage based multi-machine power system fortransient stability study, in 2017 IEEE Conference on En-ergy Conversion (CENCON), Kuala Lumpur, Malaysia, 2017,78–83.
  14. [14] P.W. Sauer, M.A. Pai, and J.H. Chow, Power system dynamicsand stability: With synchrophasor measurement and powersystem toolbox (New York, NY: John Wiley & Sons, 2017).
  15. [15] H. Ahsan and M.U.D. Mufti, Dynamic performance improve-ment of a hybrid multimachine system using a flywheel energystorage system, Wind Engineering, (London, England: SAGEPublications Sage UK), p.0309524X19849853, 2019.
  16. [16] P. Kundur, N.J. Balu, and M.G. Lauby, Power system stabilityand control, Vol. 7 (New York, NY: McGraw-Hill, 1994).
  17. [17] P.M. Anderson and A.A. Fouad, Power system control andstability (New York, NY: John Wiley & Sons, 2008).
  18. [18] H. Ahsan and M.D. Mufti, Modeling and simulation of asuperconducting magnetic energy storage based multi-machinepower system for transient stability study, in 2017 6th Inter-national Conference on Computer Applications In ElectricalEngineering-Recent Advances (CERA), Roorkee, India, 2017,347–352.
  19. [19] M. Mufti, Modelling and control of weak power systems suppliedfrom diesel and wind, International Journal of Power & EnergySystems, 23(1), 2003, 24–36.
  20. [20] S. Dechanupaprittha, K. Hongesombut, M. Watanabe,Y. Mitani, and I. Ngamroo, Stabilization of tie-line power flowby robust SMES controller for interconnected power systemwith wind farms, IEEE Transactions on Applied Superconduc-tivity, 17(2), 2007, 2365–2368.
  21. [21] C.J. Wu and Y.S. Lee, Application of superconducting magneticenergy storage unit to improve the damping of synchronousgenerator, IEEE Transactions on Energy Conversion, 6(4),1991, 573–578.
  22. [22] C.L. Phillips and H.T. Nagle, Digital control system analysisand design (Englewood Cliffs, NJ: Prentice Hall, 2007).

Important Links:

Go Back