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Based on the solution to the strictly piecewise linear state equation of a photovoltaic (PV) supplied micro-grid inverter, the nonlinear dynamic behavior of PV supplied micro-grid inverter is analyzed in this paper, and each PV supplied micro-grid inverter is considered as a network node, then a synchronous method for PV supplied micro-grid is studied using the small-world network model. Studies have found that, compared with the nearest-neighbor coupling network model, the PV supplied micro-grid based on the small-world network model has a faster synchronization time, and also has a faster recovery time in case of plus disturbance.
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Keywords:
- photovoltaic micro-grid system /
- small-world network /
- synchronization /
- nonlinear dynamics
[1] Kuo C L, Lin C H, Yau H T, Chen J L 2013 IEEE Trans. Emerg. Sel. Topics Circ. Syst. 3 459
[2] Chatterjee A, Keyhani A 2012 IEEE Trans. Smart Grid 3 1860
[3] Ou T C, Hong C M 2014 Energy 66 314
[4] Ye L, Sun H B, Song X R, Li L C 2012 Renew. Energ. 39 96
[5] Meza C, Biel D, Jeltsema D, Scherpen J M A 2012 IEEE Trans. Control Syst. Technol. 20 520
[6] Agorreta J L, Borrega M, López J, Marroyo L 2011 IEEE Trans. Power Electron. 26 770
[7] Johnson B B, Dhople S V, Cale J L, Hamadeh A O, Krein P T 2014 IEEE J. Photovolt. 4 387
[8] Serban E, Serban H 2010 IEEE Trans. Power Electron. 25 2981
[9] Mishra S, Ramasubramanian D, Sekhar P C 2013 IEEE Trans. Power Syst. 28 4393
[10] Hu N H, Zhou Y F, Chen J N 2012 Acta Phys. Sin. 61 130504 (in Chinese) [胡乃红, 周宇飞, 陈军宁 2012 61 130504]
[11] Liu H C, Su Z X 2014 Acta Phys. Sin. 63 010505 (in Chinese) [刘洪臣, 苏振霞 2014 63 010505]
[12] Wei D Q, Zhang B, Qiu D Y, Luo X S 2010 Chin. Phys. B 19 100513
[13] Zhang Y, Liu J, Li L C, Du M, Fang W X, Wang D X, Jiang X X, Hu X P, Zhang J, Wang X Y, Fang J 2014 Magn. Reson. Imaging 32 359
[14] Liu F M, Wang L, Gao L, Li H X, Zhao H F, Men S K 2014 Knowl.-Based Syst. 57 161
[15] Dassisti M, Carnimeo L 2013 Energ. Policy 63 887
[16] Li Q, Zhang B H, Cui L G, Fan Z, Vasilakos A V 2012 Chin. Phys. B 21 050205
[17] Yu H T, Wang J, Liu C, Deng B, Wei X L 2013 Physica A 392 5473
[18] Wang D, Jing Y W, Hao B B 2012 Acta Phys. Sin. 61 170513 (in Chinese) [王丹, 井元伟, 郝彬彬 2012 61 170513]
[19] Wang X H, Jiao L C, Wu J S 2010 Chin. Phys. B 19 020501
[20] Wang X F, Chen G R 2002 Int. J. Bifurcat. Chaos 12 187
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[1] Kuo C L, Lin C H, Yau H T, Chen J L 2013 IEEE Trans. Emerg. Sel. Topics Circ. Syst. 3 459
[2] Chatterjee A, Keyhani A 2012 IEEE Trans. Smart Grid 3 1860
[3] Ou T C, Hong C M 2014 Energy 66 314
[4] Ye L, Sun H B, Song X R, Li L C 2012 Renew. Energ. 39 96
[5] Meza C, Biel D, Jeltsema D, Scherpen J M A 2012 IEEE Trans. Control Syst. Technol. 20 520
[6] Agorreta J L, Borrega M, López J, Marroyo L 2011 IEEE Trans. Power Electron. 26 770
[7] Johnson B B, Dhople S V, Cale J L, Hamadeh A O, Krein P T 2014 IEEE J. Photovolt. 4 387
[8] Serban E, Serban H 2010 IEEE Trans. Power Electron. 25 2981
[9] Mishra S, Ramasubramanian D, Sekhar P C 2013 IEEE Trans. Power Syst. 28 4393
[10] Hu N H, Zhou Y F, Chen J N 2012 Acta Phys. Sin. 61 130504 (in Chinese) [胡乃红, 周宇飞, 陈军宁 2012 61 130504]
[11] Liu H C, Su Z X 2014 Acta Phys. Sin. 63 010505 (in Chinese) [刘洪臣, 苏振霞 2014 63 010505]
[12] Wei D Q, Zhang B, Qiu D Y, Luo X S 2010 Chin. Phys. B 19 100513
[13] Zhang Y, Liu J, Li L C, Du M, Fang W X, Wang D X, Jiang X X, Hu X P, Zhang J, Wang X Y, Fang J 2014 Magn. Reson. Imaging 32 359
[14] Liu F M, Wang L, Gao L, Li H X, Zhao H F, Men S K 2014 Knowl.-Based Syst. 57 161
[15] Dassisti M, Carnimeo L 2013 Energ. Policy 63 887
[16] Li Q, Zhang B H, Cui L G, Fan Z, Vasilakos A V 2012 Chin. Phys. B 21 050205
[17] Yu H T, Wang J, Liu C, Deng B, Wei X L 2013 Physica A 392 5473
[18] Wang D, Jing Y W, Hao B B 2012 Acta Phys. Sin. 61 170513 (in Chinese) [王丹, 井元伟, 郝彬彬 2012 61 170513]
[19] Wang X H, Jiao L C, Wu J S 2010 Chin. Phys. B 19 020501
[20] Wang X F, Chen G R 2002 Int. J. Bifurcat. Chaos 12 187
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