Abir Ahmed,∗ Md. Rifat Hazari,∗ Effat Jahan,∗ and Mohammad Abdul Mannan∗


  1. [1] W. Hoffmann, PV as a major contributor to the ∼100%renewably powered world and solving the climate battle. InHigh-efficient low-cost photovoltaics (Cham: Springer, 2020),9–30.
  2. [2] N. Chowdhury, C.A. Hossain, M. Longo, and W. Ya¨ıci, Feasi-bility and cost analysis of photovoltaic-biomass hybrid energysystem in off-grid areas of Bangladesh, Sustainability, 12(4),2020, 1568.
  3. [3] C.A. Hossain, N. Chowdhury, M. Longo, and W. Ya¨ıci, Systemand cost analysis of stand-alone solar home system applied toa developing country, Sustainability, 11(5), 2019, 1403.
  4. [4] M. Ban, J. Yu, M. Shahidehpour, and D. Guo, Optimal sizingof PV and battery-based energy storage in an off-grid nanogridsupplying batteries to a battery swapping station, Journal ofModern Power Systems and Clean Energy, 7(2), 2019, 309–320.
  5. [5] H.A. Bagal, Y.N. Soltanabad, M. Dadjuo, K. Wakil, and N.Ghadimi, Risk-assessment of photovoltaic-wind-battery-gridbased large industrial consumer using information gap decisiontheory, Solar Energy, 169, 2018, 343–352.
  6. [6] O. Abedinia M. Zareinejad, M.H. Doranehgard, G. Fathi,and N. Ghadimi, Optimal offering and bidding strategies ofrenewable energy based large consumer using a novel hybridrobust-stochastic approach, Journal of Cleaner Production,215, 2019, 878–889.
  7. [7] E. Troester, New German grid codes for connecting PV systemsto the medium voltage power grid, Proc. 2nd Int. Workshopon Concentrating Photovoltaic Power Plants: Optical Design,Production, Grid Connection, Lisbon, Portougal, 2009, 9–10.
  8. [8] A. Eid, M.A.A. Mehanna, and T. Mahmoud, Power systemstability enhancement by PV distributed generation, Jour-nal of Al-Azhar University Engineering Sector, 14(51), 2019,543–551.
  9. [9] H.N.V. Pico, and B.B. Johnson, Transient stability assess-ment of multi-machine multi-converter power systems, IEEETransactions on Power Systems, 34(5), 2019, 3504–3514.
  10. [10] M.S. Islam, A. Al-Durra, S.M. Muyeen, and J. Tamura, Arobust control scheme to enhance the stability of a grid-connected large scale photovoltaic system, PES T&D 2012,Orlando, FL (Piscataway, NJ: IEEE, 2012), 1–6.
  11. [11] I.A. Ethmane, A.K. Mahmoud, M. Maaroufi, and A. Yahfdhou,Transient stability enhancement of STATCOM integration inpower grid, Indonesian Journal of Electrical Engineering andComputer Science, 16(2), 2019, 553–561.
  12. [12] A. Agrawal and R. Gupta, Single sensor based ESS controllerfor DC bus stabilization in low power isolated solar PV system,Proc. 45th Annu. Conf. of the IEEE Industrial ElectronicsSociety, Lisbon, Portugal (Piscataway, NJ: IEEE, 2019), 2501–2506.
  13. [13] S. RajaMohamed, P.A. Jeyanthy, D. Devaraj, and M.Bouzguenda, Performance comparison of active and passiveLVRT strategies for grid connected PV systems, Proc. IEEEInt. Conf. on Intelligent Techniques in Control, Optimizationand Signal Processing (INCOS), Tamilnadu, India (Piscataway,NJ: IEEE, 2019), 1–5.
  14. [14] H. El Fadil, M. Oulcaid, A. Yahya, L. Ammeh, and F.Giri, Adaptive sliding mode control of power system withphotovoltaic generator, 16th Int. Multi-Conference on Systems,Signals & Devices (SSD), Istanbul, Turkey (Piscataway, NJ:IEEE, 2019), 213–218.
  15. [15] Y. Li. Y. Lei, X. Lin, Y. Zhu, et al., Research on the applicationof an SMES based on sliding mode control to enhance theLVRT capability of a grid-connected PV system, Electric PowerComponents and Systems, 47(9–10), 2019, 914–926.
  16. [16] M. Farsi and L. Jun, Nonlinear optimal feedback controland stability analysis of solar photovoltaic systems, IEEETransactions on Control Systems Technology, (early access),2019.
  17. [17] S. Nogami, A. Yokoyama, T. Daibu, and Y. Hono, Virtualsynchronous generator model control of PV for improvingtransient stability and damping in a large-scale power system,Electrical Engineering in Japan, 208(3–4), 2019, 21–28.
  18. [18] D. Pan, X. Wang, F. Liu, and R. Shi, Transient stability ofvoltage-source converters with grid-forming control: a design-oriented study, IEEE Journal of Emerging and Selected Topicsin Power Electronics, 8(2), 2019, 1019–1033.
  19. [19] C. Mishra, A. Pal, J.S. Thorp and V.A. Centeno, Transientstability assessment of prone-to-trip renewable generation richpower systems using Lyapunov’s direct method, IEEE Trans-actions on Sustainable Energy, 10(3), 2019, 1523–1533.
  20. [20] M. Choopani, S.H. Hosseinian, and B. Vahidi, New transientstability and LVRT improvement of multi-VSG grids usingthe frequency of the center of inertia, IEEE Transactions onPower Systems, 35(1), 2019, 527–538.
  21. [21] R.K. Chauhan, K. Chauhan, and J.M. Guerrero, Controllerdesign and stability analysis of grid connected DC microgrid,Journal of Renewable and Sustainable Energy, 10(3), 2018,035101.
  22. [22] R.K. Chauhan, B.S. Rajpurohit, R.E. Hebner, S.N. Singh,and F.M.G. Longatt, Design and analysis of PID and fuzzy-PID controller for voltage control of DC microgrid, Proc.IEEE Innovative Smart Grid Technologies-Asia (ISGT ASIA)(IEEE, 2015).
  23. [23] H.M. Hasanien, An adaptive control strategy for low voltageride through capability enhancement of grid-connected photo-voltaic power plants, IEEE Transactions on Power Systems,31, 2016, 3230–3237.
  24. [24] M.R. Hazari, M.A. Mannan, S.M. Muyeen, A. Umemura,R. Takahashi, and J. Tamura, Stability augmentation of a grid-connected wind farm by fuzzy-logic-controlled DFIG-basedwind turbines, Applied Sciences, 8(1), 2018, 20.
  25. [25] P. Kundur, N.J. Balu, and M.G. Lauby, Power system stabilityand control, Vol. 7 (New York: McGraw-Hill, 1994).15
  26. [26] H.M. Hasanien, Shuffled frog leaping algorithm for photo-voltaic model identification, IEEE Transactions on SustainableEnergy, 6(2), 2015, 509–515.
  27. [27] R. Kadri, J.P. Gaubert, and G. Champenois, An improvedmaximum power point tracking for photovoltaic grid-connectedinverter based on voltage-oriented control, IEEE Transactionson Industrial Electronics, 58(1), 2011, 66–75.
  28. [28] Kyocera, KC200GT high efficiency multicrystal PV mod-ule datasheet kyocera, http://www.kyocera.com.sglproducts/solar/pdf/kc200gtpdf. [Accessed: 25 January 2020]
  29. [29] M.R. Starke, DC distribution with fuel cells as distributed energyresources, Ph.D. Thesis, University of Tennessee, Knoxville,TN, 2009.
  30. [30] Cables for photovoltaic solar installations, www.elesis.gr/php/download.php?file=solar_cables_presentation.pdf. [Accessed:25 November 2019]

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