Page 255 - Advances in Renewable Energies and Power Technologies
P. 255
228 CHAPTER 6 Flexible Power Control of Photovoltaic Systems
[32] Y. Yang, H. Wang, F. Blaabjerg, T. Kerekes, A hybrid power control concept for PV in-
verters with reduced thermal loading, IEEE Trans. Power Electron. 29 (12) (December
2014) 6271e6275.
[33] R.G. Wandhare, V. Agarwal, Precise active and reactive power control of the PV-DGS
integrated with weak grid to increase PVpenetration, in: Proc. of PVSC, June 2014,
pp. 3150e3155.
[34] L.D. Watson, J.W. Kimball, Frequency regulation of a microgrid using solar power, in:
Proc. of APEC, March 2011, pp. 321e326.
[35] V. Poulios, E. Vrettos, F. Kienzle, E. Kaffe, H. Luternauer, G. Andersson, Optimal
Placement and Sizing of Battery Storage to Increase the PV Hosting Capacity of
Low Voltage Grids. International ETG Congress 2015; Die Energiewende e Blueprints
for the New Energy Age, Germany, Bonn, 2015, pp. 1e8.
[36] Y. Yang, E. Koutroulis, A. Sangwongwanich, F. Blaabjerg, Minimizing the levelized
cost of energy in single-phase photovoltaic systems with an absolute active power
control, IEEE Ind. Appl. Mag. 23 (5) (September/October 2017) 1e10.
[37] F. Blaabjerg, Z. Chen, S.B. Kjaer, Power electronics as efficient interface in dispersed
power generation systems, IEEE Trans. Power Electron. 19 (5) (September 2004)
1184e1194.
[38] Y. Yang, F. Blaabjerg, Overview of single-phase grid-connected photovoltaic systems,
Electr. Power Compo. Sys. 43 (12) (2015) 1352e1363.
[39] N.A. Rahim, R. Saidur, K.H. Solangi, M. Othman, N. Amin, Survey of grid-connected
photovoltaic inverters and related systems, Clean Technol. Environ. Policy 14 (4)
(2012) 521e533.
[40] Y. Yang, A. Sangwongwanich, F. Blaabjerg, Design for reliability of power electronics
for grid-connected photovoltaic systems, CPSS Trans. Power Electron. Appl. 1 (1)
(December 2016) 92e103.
[41] S.B. Kjaer, J.K. Pedersen, F. Blaabjerg, A review of single-phase grid-connected in-
verters for photovoltaic modules, IEEE Trans. Ind. App. 41 (5) (SeptembereOctober
2005) 1292e1306.
[42] S. Kouro, J.I. Leon, D. Vinnikov, L.G. Franquelo, Grid-connected photovoltaic systems:
an overview of recent research and emerging PV converter technology, IEEE Ind. Elec-
tron. Mag. 9 (1) (March 2015) 47e61.
[43] S. Moskowitz, The Next Opportunity for Utility PV Cost Reductions: 1,500 Volts DC.
(Online). Available: https://www.greentechmedia.com/articles/read/TheNext-
Opportunity-for-Utility-PV-Cost-Reductions-1500-Volts-DC/.
[44] Sungrow Sungrow unveiled new, VDC String and Central Inverters at Solar Power In-
ternational 2016, 1500 [Online]. Available: http://en.sungrowpower.com/event-press/
news/335.html/.
[45] T. Kerekes, R. Teodorescu, P. Rodriguez, G. Vazquez, E. Aldabas, A new high-
efficiency single-phase transformerless pv inverter topology, IEEE Trans. Ind. Electron.
58 (1) (Jan. 2011) 184e191.
[46] R. Teodorescu, M. Liserre, P. Rodriguez, Grid Converters for Photovoltaic and Wind
Power Systems, Wiley, Hoboken, NJ, USA, 2011.
[47] F. Blaabjerg, R. Teodorescu, M. Liserre, A.V. Timbus, Overview of control and grid
synchronization for distributed power generation systems, IEEE Trans. Ind. Electron.
53 (5) (October 2006) 1398e1409.
[48] M. Ciobotaru, R. Teodorescu, F. Blaabjerg, Control of single-stage single-phase PV
inverter, in: Proc. EPE, 2005, pp. 1e10.
