Volume 12, Issue 3, August 2015, Pages 705–714
Abdelaziz Belfqih1, Najd Belaguide2, Mohammed N. Dazahra3, Anas Lekbich4, Abdelmajid Berdai5, Jamal Boukherouaa6, and Faissal El Mariami7
1 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
2 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
3 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
4 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
5 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
6 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
7 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
Original language: English
Copyright © 2015 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
The conduct of the electrical networks has known in recent years major changes induced mainly by the technological development of power electronics as well as information systems and communication (Smart Grid), in addition to this is the integration of intermittent sources of production and competitive requirements advocating the power quality and the continuity of service as major objectives. That said it is understood that the electrical networks have a set of vulnerabilities due to the intrinsic parameters.
The new concept of electrical networks regulation based on topological control can prevent major incidents following a saturation of transmission lines by providing a means of optimized regulation and means of safer and more effective communication.
Author Keywords: Electric Network, Smart Grid, FACTS, topological control, communication.
Abdelaziz Belfqih1, Najd Belaguide2, Mohammed N. Dazahra3, Anas Lekbich4, Abdelmajid Berdai5, Jamal Boukherouaa6, and Faissal El Mariami7
1 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
2 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
3 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
4 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
5 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
6 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
7 Electric Systems and Energy Team, National School of Electricity and Mechanics (ENSEM), Casablanca, Morocco
Original language: English
Copyright © 2015 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
The conduct of the electrical networks has known in recent years major changes induced mainly by the technological development of power electronics as well as information systems and communication (Smart Grid), in addition to this is the integration of intermittent sources of production and competitive requirements advocating the power quality and the continuity of service as major objectives. That said it is understood that the electrical networks have a set of vulnerabilities due to the intrinsic parameters.
The new concept of electrical networks regulation based on topological control can prevent major incidents following a saturation of transmission lines by providing a means of optimized regulation and means of safer and more effective communication.
Author Keywords: Electric Network, Smart Grid, FACTS, topological control, communication.
How to Cite this Article
Abdelaziz Belfqih, Najd Belaguide, Mohammed N. Dazahra, Anas Lekbich, Abdelmajid Berdai, Jamal Boukherouaa, and Faissal El Mariami, “The development of a new concept for optimization of regulating means of electrical networks,” International Journal of Innovation and Applied Studies, vol. 12, no. 3, pp. 705–714, August 2015.
