LOAD-FREQUENCY REGULATION WITH SOLAR PV AND BATTERY ENERGY STORAGE SYSTEM

Rachakonda S.R. Akshay and Rajesh J. Abraham

References

  1. [1] Ibraheem, P. Kumar, and D.P. Kothari, Recent philosophiesof automatic generation control strategies in power systems,IEEE Transactions on Power Systems, 20(1), 2005, 346–357.
  2. [2] F. Daneshfar and H. Bevrani, Load-frequency control: A GA-based multi-agent reinforcement learning, IET Generation,Transmission & Distribution, 4(1), 2010, 13–26.
  3. [3] L.C. Saikia, J. Nanda, and S. Mishra, Performance comparisonof several classical controllers in AGC for multi-area inter-connected thermal system, International Journal of ElectricalPower and Energy Systems, 33(3), 2011, 394–401.
  4. [4] G.A. Chown and R.C. Hartman, Design and experience with afuzzy logic controller for automatic generation control, IEEETransactions on Power Systems, 13(3), 1998, 965–970.
  5. [5] J. Hu, J. Cao, J.M. Guerrero, T. Yong, and J. Yu, Improvingfrequency stability based on distributed control of multipleload aggregators, IEEE Transactions on Smart Grid, 8(4),2017, 1553–1567.
  6. [6] J. Morren, S.W.H. de Haan, W.L. Kling, and J.A. Ferreira,Wind turbines emulating inertia and supporting primary fre-quency control, IEEE Transactions on Power Systems, 21(1),2006, 433–434.
  7. [7] M.S. Lu, C.L. Chang, W.J. Lee, and L. Wang, Combining thewind power generation system with energy storage equipment,IEEE Transactions on Industry Applications, 45(6), 2009,2109–2115.
  8. [8] P.P. Zarina, S. Mishra, and P.C. Sekhar, Exploring frequencycontrol capability of a PV system in a hybrid PV-rotatingmachine without storage system, International Journal ofElectrical Power and Energy Systems, 60, 2014, 258–267.
  9. [9] R. Poli, Analysis of the publications on the applications ofparticle swarm optimization, Journal of Artificial Evolutionand Applications, 2008, 2008, 1–10.
  10. [10] K. Naidu, H. Mokhlis, and A.H.A. Bakar, Application of fireflyalgorithm (FA) based optimization in load frequency controlfor interconnected reheat thermal power system, Proc. of theIEEE Jordan Conf. on Applied Electrical Engineering andComputing Technologies, Amman, Jordan, 2013, 1–5.
  11. [11] M. Datta, T. Senjyu, A. Yona, T. Funabashi, and C.H. Kim,A frequency control approach by photovoltaic generator in aPV-diesel hybrid power system, IEEE Transactions on EnergyConversion, 26(2), 2011, 559–571.
  12. [12] S. You, G. Kou, Y. Liu, et al., Impact of high PV penetration onthe inter-area oscillations in the U.S. Eastern Interconnection,IEEE Access, 5, 2017, 4361–4369.
  13. [13] K.V. Vidyanandan and N. Senroy, Improved frequency regu-lation in wind-PV-DG hybrid microgrid using wind turbines,Proc. of the IEEE 6th International Conf. on Power Systems(ICPS), New Delhi, India, 2016, 1–6.
  14. [14] E. Cheres, The application of generation rate constraint inthe modeling of a thermal power system, Electric PowerComponents and Systems, 29(2), 2001, 83–87.
  15. [15] T. Shimizu, M. Hirakata, T. Kamezawa, and H. Watanabe,Generation control circuit for photovoltaic modules, IEEETransactions on Power Electronics, 16(3), 2001, 293–300.
  16. [16] H. Li, J. Ding, J. Huang, Y. Dong, and X. Li, Reliabilityevaluation of PV power systems with consideration of timevarying factors, IET Journal of Engineering, 2017(13), 2017,1783–1787.
  17. [17] D. Sera, R. Teodorescu, J. Hantschel, and M. Knoll, Optimizedmaximum power point tracker for fast-changing environmentalconditions, IEEE Transactions on Industrial Electronics, 55(7),2008, 2629–2637.
  18. [18] P. Huynh and B.H. Cho, Design and analysis of amicroprocessor-controlled peak-power-tracking system, IEEETransactions on Aerospace and Electronic Systems, 32(1),1996, 182–190.
  19. [19] M. Rezkallah, S.K. Sharma, A. Chandra, B. Singh, and D.R.Rousse, Lyapunov function and sliding mode control approachfor the solar-PV grid interface system, IEEE Transactions onIndustrial Electronics, 64(1), 2017, 785–795.
  20. [20] N. Beniwal, I. Hussain, and B. Singh, Control and operationof a solar PV-battery-grid-tied system in fixed and variablepower mode, IET Generation, Transmission and Distribution,12(11), 2018, 2633–2641.
  21. [21] B.K. Bose, P.M. Szczesny, and R.L. Steigerwald, Microcom-puter control of a residential photovoltaic power condition-ing system, IEEE Transactions on Industrial Applications,IA-21 (5), 1985, 1182–1191.
  22. [22] S. Mishra, S. Jena, P.R. Satpathy, R. Datta, A. Sarangi, andS.K. Kar, Design and analysis of solar PV and electrolyzerbased DG with unique control aspect, Proc. of the IEEEInternational Conf. on Technologies for Smart-City EnergySecurity and Power, Bhubaneswar, India, 2018, 1–6.
  23. [23] Y. Mi, Y. Fu, J.B. Zhao, and P. Wang, The novel frequencycontrol method for PV-diesel hybrid system, Proc. of the 10thIEEE International Conf. on Control and Automation (ICCA),Hangzhou, China, 2013, 180–183.
  24. [24] L. Maharjan, S. Inoue, H. Akagi, and J. Asakura, State-of-charge (SOC)-balancing control of a battery energy storagesystem based on a cascade PWM converter, IEEE Transactionson Power Electronics, 24(6), 2009, 1628–1636.
  25. [25] D.J. Lee and L. Wang, Small-signal stability analysis of anautonomous hybrid renewable energy power generation/energystorage system Part I: Time-domain simulations, IEEE Trans-actions on Energy Conversion, 23(1), 2008, 311–320.
  26. [26] M. Datta, T. Senjyu, A. Yona, T. Funabashi, and C.H. Kim,A coordinated control method for leveling PV output powerfluctuations of PV–diesel hybrid systems connected to isolatedpower utility, IEEE Transactions on Energy Conversion, 24(1),2009, 153–162.
  27. [27] M.D. Tabone and D.S. Callaway, Modeling variability anduncertainty of photovoltaic generation: A hidden state spatialstatistical approach, IEEE Transactions on Power Systems,30(6), 2015, 2965–2973.
  28. [28] Y. Jia and C. Sun, Distributed MPC with application to AGCof power system with wind-photovoltaic hybrid generation,Proc. of the 36th Chinese Control Conf., Dalian, China, 2017,4676–4681.
  29. [29] D.E. Goldberg, Genetic algorithms in search, optimisation andmachine learning, in: Handbook of genetic algorithm (India:Pearson Education, 2008).
  30. [30] Y.L.A. Magid and M.M. Dawoud, Optimal AGC tuning withgenetic algorithms, Electric Power Systems Research, 38(3),1996, 231–238.
  31. [31] R.J. Abraham, D. Das, and A. Patra, Load following in abilateral market with local controllers, International Journal ofElectrical Power & Energy Systems, 33(10), 2011, 1648–1657.

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