Your search keyword '"nonlinear dynamic operation"' showing total 2 results

1. Resilient wide-area monitoring and protection scheme with IEEE Std. C37.118.1-2011 criteria for complex smart grid system using phase diagram

Author

Moustafa M. Eissa

Subjects

phasor measurement, IEEE standards, power system control, smart power grids, power system measurement, relay protection, power system protection, resilient wide-area monitoring, complex smart grid system, phase diagram, wide-area system, wide-area disturbance, large-scale power system configurations, operating systems, protection relays, backup protection, wide system disturbances, wide-area-monitoring-system-based primary protection, complex power system, double lines, single lines, nonlinear dynamic operation, traditional communication media limits wide-area monitoring, primary protection scheme, wide area, wide-area-monitoring system, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Challenges facing power system protection in a wide-area system are latency and full coverage of a wide-area disturbance. The complexity of large-scale power system configurations has led to challenges in the design of coordination and operating systems for protection relays. Local measurements used for primary and backup protection cannot consider wide system disturbances. A new wide-area-monitoring-system-based primary protection is presented for a complex power system involving double and single lines. It is based on describing the non-linear dynamic operation of the transmission lines during a fault in the form of a set of differential equations that are solved through paths movements in a phase diagram. The fault on the lines can be precisely recognised. The speed of the traditional communication media limits wide-area monitoring as backup protection. This study presents the primary protection scheme for double and single circuits in a wide area for the first time based on fourth-generation technology with low latency. The justification for applying the proposed scheme as primary protection in a wide-area-monitoring system is discussed. The number of relays on the studied configuration is reduced from 18 local relays to only 5 phasor measurement units for protecting the lines in the area.

Published

2019

2. Resilient wide-area monitoring and protection scheme with IEEE Std. C37.118.1-2011 criteria for complex smart grid system using phase diagram

Author

M.M. Eissa

Subjects

IEEE standards, operating systems, backup protection, complex power system, nonlinear dynamic operation, Computer Networks and Communications, Computer science, power system measurement, wide area, power system control, wide-area-monitoring-system-based primary protection, primary protection scheme, Fault (power engineering), traditional communication media limits wide-area monitoring, double lines, Electric power system, Backup, power system protection, Electronic engineering, wide-area-monitoring system, complex smart grid system, Electrical and Electronic Engineering, Latency (engineering), resilient wide-area monitoring, wide system disturbances, phasor measurement, relay protection, large-scale power system configurations, Phasor, single lines, phase diagram, smart power grids, Electric power transmission, Smart grid, wide-area system, wide-area disturbance, lcsh:Electrical engineering. Electronics. Nuclear engineering, protection relays, Power-system protection, lcsh:TK1-9971, Information Systems

Abstract

Challenges facing power system protection in a wide-area system are latency and full coverage of a wide-area disturbance. The complexity of large-scale power system configurations has led to challenges in the design of coordination and operating systems for protection relays. Local measurements used for primary and backup protection cannot consider wide system disturbances. A new wide-area-monitoring-system-based primary protection is presented for a complex power system involving double and single lines. It is based on describing the non-linear dynamic operation of the transmission lines during a fault in the form of a set of differential equations that are solved through paths movements in a phase diagram. The fault on the lines can be precisely recognised. The speed of the traditional communication media limits wide-area monitoring as backup protection. This study presents the primary protection scheme for double and single circuits in a wide area for the first time based on fourth-generation technology with low latency. The justification for applying the proposed scheme as primary protection in a wide-area-monitoring system is discussed. The number of relays on the studied configuration is reduced from 18 local relays to only 5 phasor measurement units for protecting the lines in the area.

Published

2019