POWER SHARING STRATEGY OF VIRTUAL SYNCHRONOUS GENERATORS IN PARALLEL BASED ON CLEAN ENERGY, 102-107.

Fei Zhang, Jia Zhao, Jianmin Ma, and Longfei Wang

References

  1. [1] A.K. Yadav, V. Kumar, A.S. Pandey, S.M. Tripathi, andA. Kumar, Wind farm integrated fuzzy logic-based factscontrolled power system stability analysis, Mechatronic Systemsand Control, 51, 2023, 172–181.
  2. [2] P. Ranjan and S.S. Kumar, A model predictive current controlstrategy for grid-connected single-stage boost inverter in solarphotovoltaic systems, Mechatronic Systems and Control, 51,2023, 86–96.
  3. [3] G. Uzel and S. Gurluk, Water resources management,allocation and pricing issues: The case of Turkey, Journal ofEnvironmental Protection and Ecology, 17(1), 2016, 71.
  4. [4] J.N. Axelson, D.J. Sauchyn, and J. Barichivich, New recon-structions of streamflow variability in the South Saskatchewanriver basin from a network of tree ring chronologies, Alberta,Canada, Water Resources Research, 45(9), 2009, W09422.1.
  5. [5] E. Borgomeo, G. Pflug, J.W. Hall, and S. Hochrainer-Stigler,Assessing water resource system vulnerability to unprecedentedhydrological drought using copulas to characterize droughtduration and deficit, Water Resources Research, 51(11), 2015,8927.
  6. [6] J. Liu, Y. Miura, T. Ise, J. Yoshizawa, and K. Watanabe,Parallel operation of a synchronous generator and a virtualsynchronous generator under unbalanced loading conditionin microgrids, Proc. 2016 IEEE 8th International PowerElectronics and Motion Control Conf. (IPEMC-ECCE Asia),Hefei, 2016, 3741–3748.
  7. [7] Y.N. Zhang, M. Zhu, J.W. Zhang, and X. Cai, A virtualsynchronous generator control strategy for micro sourceinverters based on adaptive adjustment, Journal of PowerSupply, 14(03), 2016, 11–19.
  8. [8] L. Zhang, F. Wang, H. Guo, X. Feng, Y. Du, and J. Su,Perturbation influences of parameters on dynamic performanceof a virtual synchronous generator, Proc. IECON 2017 - 43rdAnnual Conf. of the IEEE Industrial Electronics Society,Beijing, China, 2017, 1405–1410.
  9. [9] D. Li, Q. Zhu, S. Lin, and X.Y. Bian, A self-adaptive inertiaand damping combination control of VSG to support frequencystability, IEEE Transactions on Energy Conversion, 32(1),2017, 397–398.
  10. [10] J. Wu, F. Zhuo, Z. Wang, H. Yi, and K. Yu, Pre-synchronizationmethod for grid-connection of virtual synchronous generatorsbased micro-grids, Proc. 2017 19th European Conf. on PowerElectronics and Applications (EPE’17 ECCE Europe), Warsaw,2017, 1–8.
  11. [11] D. Xie, D. Zang, P. Gao, and J. Wang, Research on thepower sharing control and stability of VSGs, Journal of PowerElectronics, 17(2), 2017, 542–550.
  12. [12] L.R. Popescu, M. Iordache, L.F. Pascu, E.M. Ungureanu,and G.O. Buica, Applications of the mathematical modelANOVA in the area of an industrial platform for assessmentof groundwater quality, Journal of Environmental Protectionand Ecology, 17(1), 2016, 33.
  13. [13] D. Jackson, How personal trainers can use self-efficacy theoryto enhance exercise behavior in beginning exercisers, Strengthand Conditioning Journal, 32(3), 2010, 67.
  14. [14] J. Middelkamp, M.V. Rooijen, and P. Wolfhagen, The effectsof a self-efficacy intervention on exercise behavior of fitnessclub members in 52 weeks and long-term relationships oftranstheoretical model constructs, Journal of Sports Scienceand Medicine, 16(2), 2017, 163.
  15. [15] J.E. Barkley and A. Lepp, Mobile phone use among collegestudents is a sedentary leisure behavior which may interferewith exercise, Computers in Human Behavior, 56, 2016, 29.
  16. [16] D. Jackson, How personal trainers can use self-efficacy theoryto enhance exercise behavior in beginning exercisers, Strengthand Conditioning Journal, 32(3), 2010, 67.
  17. [17] A.L. Brenkert and E.L. Malone, Modeling vulnerability andresilience to climate change: A case study of India and IndianStates, Climatic Change, 72(1–2), 2005, 57.
  18. [18] M. Al-Senafy and J. Abraham, Vulnerability of groundwaterresources from agricultural activities in Southern Kuwait,Agricultural Water Management, 64(1), 2004, 1.
  19. [19] L. Zhang, H. Zheng, T. Wan, D. Shi, L. Lyu, and G. Cai,An integrated control algorithm of power distribution forislanded microgrid based on improved virtual synchronousgenerator, IET Renewable Power Generation, 15(12), 2021,2674–2685.
  20. [20] J. Liu, Y. Miura, H. Bevrani, and T. Ise, Enhancedvirtual synchronous generator control for parallel inverters inmicrogrids, IEEE Transactions on Smart Grid, 8(5), 2016,2268–2277.
  21. [21] K.M. Cheema, A comprehensive review of virtual synchronousgenerator, International Journal of Electrical Power & EnergySystems, 120, 2020, 106006.
  22. [22] M. Chen, D. Zhou, C. Wu, and F. Blaabjerg, Characteristicsof parallel inverters applying virtual synchronous generatorcontrol, IEEE Transactions on Smart Grid, 12(6), 2021,4690–4701.
  23. [23] A. Belila, Y. Amirat, M. Benbouzid, E.M. Berkouk, andG. Yao, Virtual synchronous generators for voltage synchro-nization of a hybrid PV-diesel power system, InternationalJournal of Electrical Power & Energy Systems, 117, 2020,105677.
  24. [24] V. Gurugubelli, A. Ghosh, A.K. Panda, and S. Rudra,Implementation and comparison of droop control, virtualsynchronous machine, and virtual oscillator control for parallelinverters in standalone microgrid, International Transactionson Electrical Energy Systems, 31(5), 2021, e12859.
  25. [25] K. Shi, W. Song, H. Ge, P. Xu, Y. Yang, andF. Blaabjerg, Transient analysis of microgrids with parallelsynchronous generators and virtual synchronous generators,IEEE Transactions on Energy Conversion, 35(1), 2019,95–105.106
  26. [26] B. Cheng, Z. Zeng, H. Yang, and R. Zhao, Wirelessparallel control of three-phase inverters based on virtualsynchronous generator theory, Proc. 2013 International Conf.on Electrical Machines and Systems (ICEMS), Busan, 2013,162–166.
  27. [27] O.O. Mohammed, A.O. Otuoze, S. Salisu, O. Ibrahim, andN.A. Rufa’i, Virtual synchronous generator: an overview,Nigerian Journal of Technology, 38(1), 2019, 153–164.
  28. [28] A. Perera, Virtual synchronous machine-based power controlin active rectifiers for micro grids, Master’s Thesis, Instituttfor elkraftteknikk, Trondheim, NOR, 2012.
  29. [29] L. Zhang, H. Zheng, G. Cai, Z. Zhang, X. Wang, andL.H. Koh, Power-frequency oscillation suppression algorithmfor AC microgrid with multiple virtual synchronous generatorsbased on fuzzy inference system, IET Renewable PowerGeneration, 16(8), 2022, 1589–1601.

Important Links:

Go Back