TY - JOUR
T1 - A Novel Protection Approach of Wide Area with a Wind Farm Based on VI Correlation
T2 - 25th International Middle East Power System Conference, MEPCON 2024
AU - Mourad, Dina
AU - Abd-Elatif, A. S.
AU - Moussa, S. M.
AU - Abu Adma, M. A.
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - This work exposes a new centralized digital strategy for large-scale network protection. Such a strategy uses the correlation factor between the signals of phase voltages plus line currents. System Protection Terminals (SPTs) receive the measured signals from each transmission line's sides. Then it can directly communicate with the other SPTs, SPC (system protection center), and PDC (Phasor Data Concentrator). The PDC collects data from all SPTs and correlates the data by time tag and gives it to the SPC to monitor, control, and protect the power grid, the response time is 0.01 seconds after the fault occurred. The studied system was a part of the 220 kV network of the Egyptian network which is connected to the ZAAFARANA wind farm; the simulation is done by using MATLAB/ SIMULINK software. In addition, this article exposes a real-time study that depends on experimental laboratory work. The laboratory system uses a transmission line model of 500kV, 300km. Both current and voltage signals fed the data acquisition card at 1.4 kHz sampling frequency through current and voltage transducers. The used software in the laboratory work is the Lab-View package. The results of both simulation and laboratory tests prove that the suggested strategy is reliable, stable, and quick. The laboratory results assure the simulated results.
AB - This work exposes a new centralized digital strategy for large-scale network protection. Such a strategy uses the correlation factor between the signals of phase voltages plus line currents. System Protection Terminals (SPTs) receive the measured signals from each transmission line's sides. Then it can directly communicate with the other SPTs, SPC (system protection center), and PDC (Phasor Data Concentrator). The PDC collects data from all SPTs and correlates the data by time tag and gives it to the SPC to monitor, control, and protect the power grid, the response time is 0.01 seconds after the fault occurred. The studied system was a part of the 220 kV network of the Egyptian network which is connected to the ZAAFARANA wind farm; the simulation is done by using MATLAB/ SIMULINK software. In addition, this article exposes a real-time study that depends on experimental laboratory work. The laboratory system uses a transmission line model of 500kV, 300km. Both current and voltage signals fed the data acquisition card at 1.4 kHz sampling frequency through current and voltage transducers. The used software in the laboratory work is the Lab-View package. The results of both simulation and laboratory tests prove that the suggested strategy is reliable, stable, and quick. The laboratory results assure the simulated results.
KW - and Laboratory study
KW - data acquisition
KW - Lab-View
KW - system protection terminals
KW - VI correlation factor
KW - Wide area protection
KW - wind farm
UR - http://www.scopus.com/inward/record.url?scp=105001562976&partnerID=8YFLogxK
U2 - 10.1109/MEPCON63025.2024.10850198
DO - 10.1109/MEPCON63025.2024.10850198
M3 - Conference article
AN - SCOPUS:105001562976
SN - 2994-5747
JO - Proceedings of the International Middle East Power System Conference, MEPCON
JF - Proceedings of the International Middle East Power System Conference, MEPCON
IS - 2024
Y2 - 17 December 2024 through 19 December 2024
ER -
