Active and reactive power management of grid connected photovoltaic system

Voltage-source converter (VSC) topology is widely used for grid interfacing of distributed generation (DG) systems such as the photovoltaic system (PV). Since the operation of the VSC is essential to ensure quality of active and reactive power injected to the grid, a control approach is needed to de...

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Published in:Indonesian Journal of Electrical Engineering and Computer Science
Main Author: Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
Format: Article
Language:English
Published: Institute of Advanced Engineering and Science 2019
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85063156605&doi=10.11591%2fijeecs.v13.i3.pp1324-1331&partnerID=40&md5=2236acded2e971901b085c99a5fc8772
id 2-s2.0-85063156605
spelling 2-s2.0-85063156605
Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
Active and reactive power management of grid connected photovoltaic system
2019
Indonesian Journal of Electrical Engineering and Computer Science
13
3
10.11591/ijeecs.v13.i3.pp1324-1331
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85063156605&doi=10.11591%2fijeecs.v13.i3.pp1324-1331&partnerID=40&md5=2236acded2e971901b085c99a5fc8772
Voltage-source converter (VSC) topology is widely used for grid interfacing of distributed generation (DG) systems such as the photovoltaic system (PV). Since the operation of the VSC is essential to ensure quality of active and reactive power injected to the grid, a control approach is needed to deal with the uncertainties in the grid such as faults. This paper presents a non-linear controller design for a three-phase voltage source converter (VSC). The dynamic variables adopted for the VSC are the instantaneous real and reactive power components. The control approach that interface the VSC between the PV system and the grid are subjected to the current-voltage based. PV system injects active power to the grid and local load while utility grid monitors the power compensation of load reactive power. The proposed non-linear control strategy is implemented for the VSC to ensure fast error tracking and finite convergence time. The adaptive nature of the proposed non-linear control provides more robustness, less sluggish fault recovery compared to conventional PI control. The comprehensive numerical model is demonstrated in MATLAB script environment with power system disturbances such as faults in the grid. The simulation of proposed system is being carried out in MATLAB/SIMULINK environment to validate the control scheme. The proposed control system regulates the VSC ac side real and reactive power component and the dc side voltage. © 2019 Institute of Advanced Engineering and Science.
Institute of Advanced Engineering and Science
25024752
English
Article
All Open Access; Hybrid Gold Open Access
author Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
spellingShingle Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
Active and reactive power management of grid connected photovoltaic system
author_facet Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
author_sort Jeman A.A.J.; Hannoon N.M.S.; Hidayat N.; Adam M.M.H.; Musirin I.; Vijayakumar V.
title Active and reactive power management of grid connected photovoltaic system
title_short Active and reactive power management of grid connected photovoltaic system
title_full Active and reactive power management of grid connected photovoltaic system
title_fullStr Active and reactive power management of grid connected photovoltaic system
title_full_unstemmed Active and reactive power management of grid connected photovoltaic system
title_sort Active and reactive power management of grid connected photovoltaic system
publishDate 2019
container_title Indonesian Journal of Electrical Engineering and Computer Science
container_volume 13
container_issue 3
doi_str_mv 10.11591/ijeecs.v13.i3.pp1324-1331
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85063156605&doi=10.11591%2fijeecs.v13.i3.pp1324-1331&partnerID=40&md5=2236acded2e971901b085c99a5fc8772
description Voltage-source converter (VSC) topology is widely used for grid interfacing of distributed generation (DG) systems such as the photovoltaic system (PV). Since the operation of the VSC is essential to ensure quality of active and reactive power injected to the grid, a control approach is needed to deal with the uncertainties in the grid such as faults. This paper presents a non-linear controller design for a three-phase voltage source converter (VSC). The dynamic variables adopted for the VSC are the instantaneous real and reactive power components. The control approach that interface the VSC between the PV system and the grid are subjected to the current-voltage based. PV system injects active power to the grid and local load while utility grid monitors the power compensation of load reactive power. The proposed non-linear control strategy is implemented for the VSC to ensure fast error tracking and finite convergence time. The adaptive nature of the proposed non-linear control provides more robustness, less sluggish fault recovery compared to conventional PI control. The comprehensive numerical model is demonstrated in MATLAB script environment with power system disturbances such as faults in the grid. The simulation of proposed system is being carried out in MATLAB/SIMULINK environment to validate the control scheme. The proposed control system regulates the VSC ac side real and reactive power component and the dc side voltage. © 2019 Institute of Advanced Engineering and Science.
publisher Institute of Advanced Engineering and Science
issn 25024752
language English
format Article
accesstype All Open Access; Hybrid Gold Open Access
record_format scopus
collection Scopus
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