Title :
Performance of grid interfaced solar PV system under variable solar intensity
Author :
Kumar, Sanjay ; Verma, Arun Kumar ; Hussain, Ikhlaq ; Singh, Bhim
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol. Delhi, New Delhi, India
Abstract :
This paper proposes an enhanced phase locked loop (EPLL) based control algorithm of a double stage solar photovoltaic (PV) grid interfaced power generating system, which also mitigates power quality problems in 3P4W (three phase, four wire) distribution system. The proposed solar PV grid interfaced system consists of solar PV array, boost converter, four-leg voltage source converter (VSC) and connected linear/nonlinear loads. The proposed solar PV power generating system provides load balancing, eliminates harmonics, corrects the power factor, and regulates at PCC (Point of Common Coupling) voltages under different loads. Proposed solar PV grid interfaced power generating system is modeled and simulated in the MATLAB and results are shown to validate the design and control for feeding 3P4W loads with improved power quality.
Keywords :
load regulation; phase locked loops; photovoltaic power systems; power conversion harmonics; power distribution control; power factor correction; power generation control; power grids; power supply quality; solar power stations; voltage control; 3P4W distribution system; EPLL based control algorithm; MATLAB; PCC voltage regulation; boost converter; connected linear loads; connected nonlinear loads; double stage solar photovoltaic grid interfaced power generating system; enhanced phase locked loop based control algorithm; four-leg voltage source converter; grid interfaced solar PV system; harmonics elimination; load balancing; point-of-common coupling voltage regulation; power factor correction; power quality problems; solar PV array; three phase four wire distribution system; variable solar intensity; Arrays; Inductors; Power conversion; Power quality; Reactive power; Voltage control; EPLL; VSC; power quality (PQ); zero voltage Regulation (ZVR) and power factor correction (PFC);
Conference_Titel :
Power Electronics (IICPE), 2014 IEEE 6th India International Conference on
Print_ISBN :
978-1-4799-6045-3
DOI :
10.1109/IICPE.2014.7115797
