Skip to main content

Research Repository

Advanced Search

Evaluation of LVRT capability and stability analysis of VSC based advanced control approach for grid connected PV system under grid fault conditions

Zahloul, Hussin; Khaliq, Arjmand; Hamzehbahmani, Hamed; Veremieiev, Sergii; Salous, Sana

Evaluation of LVRT capability and stability analysis of VSC based advanced control approach for grid connected PV system under grid fault conditions Thumbnail


Authors

Profile image of Hussin Zahloul

Hussin Zahloul hussin.a.zahloul@durham.ac.uk
PGR Student Doctor of Philosophy

Profile image of Arjmand Khaliq

Arjmand Khaliq arjmand.khaliq@durham.ac.uk
PGR Student Doctor of Philosophy



Abstract

Short circuit faults are a prevalent issue in power systems, causing disruptions to the grid's normal operation. Dynamic behaviours of the conventional power systems during short circuit faults have been extensively studied and understood. The bulk of ongoing research and development are focusing on the dynamic performance of grid-connected renewable energy systems under these fault conditions, due to changes in the grid code and a decrease in system inertia. The development of effective control strategies to enhance the system's reliability during fault conditions is of paramount importance. In this paper, a two-stages grid-connected photovoltaic system (GCPV) having a rated power of 2 MW was created in the MATLAB/Simulink environment. The dynamic behaviour of the presented system was evaluated in two scenarios: steady state conditions and short circuit faults. A line-to-ground short circuit fault was created at the grid side, and its effect on the PV system's operation was observed. An advanced control system was designed to maintain stability during fault conditions. The results demonstrated the efficiency of the designated control system in minimizing the effects of short circuit faults on the GCPV system's function, and restoring the system promptly after the fault was cleared. Furthermore, considering modifications in grid regulations, the low voltage ride through (LVRT) capability of the designed system was analysed and validated according to the UK standards. The Total Harmonic Distortion (THD) level at the common coupling point was also analysed for voltage and current, remaining below the acceptable level of 5% as specified in the IEEE Std. 519.

Citation

Zahloul, H., Khaliq, A., Hamzehbahmani, H., Veremieiev, S., & Salous, S. (2024). Evaluation of LVRT capability and stability analysis of VSC based advanced control approach for grid connected PV system under grid fault conditions. Heliyon, 10(5), Article e26935. https://doi.org/10.1016/j.heliyon.2024.e26935

Journal Article Type Article
Acceptance Date Feb 21, 2024
Online Publication Date Feb 22, 2024
Publication Date Mar 15, 2024
Deposit Date Feb 29, 2024
Publicly Available Date Mar 1, 2024
Journal Heliyon
Electronic ISSN 2405-8440
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 10
Issue 5
Article Number e26935
DOI https://doi.org/10.1016/j.heliyon.2024.e26935
Public URL https://durham-repository.worktribe.com/output/2290934

Files





You might also like



Downloadable Citations