A non-PMU-based WAN protection scheme for swing detection and stability enhancement in power systems

This paper presents a scheme for power swing detection and stability assessment for multi-machine power systems in addition to a brief survey on that topic. The scheme adopts smart grid perception. It is an asynchronous scheme that uses the rate of change of the angle of the generator bus voltage in...

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Published in:Electrical engineering 2023-10, Vol.105 (5), p.3191-3208
Main Authors: El-Metwally, Ehab A., Attia, Mahmoud A., El-Shimy, Mohamed
Format: Article
Language:English
Subjects:
Economics and Management
Electric power systems
Electrical Engineering
Electrical Machines and Networks
Energy Policy
Engineering
Measuring instruments
Original Paper
Packet transmission
Phasors
Power Electronics
Smart grid
Stability analysis
Substations
Synchronism
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creator El-Metwally, Ehab A.
Attia, Mahmoud A.
El-Shimy, Mohamed
description This paper presents a scheme for power swing detection and stability assessment for multi-machine power systems in addition to a brief survey on that topic. The scheme adopts smart grid perception. It is an asynchronous scheme that uses the rate of change of the angle of the generator bus voltage instead of synchronously estimating the absolute rotor angle value for stability assessment. Therefore, it does not require phasor measurement units (PMUs). Instead, it uses commercially available intelligent electronic devices (IEDs). It introduces a new application of the multicast Generic Object Oriented Substation Event (GOOSE) protocol or its routable version (R-GOOSE) to reflect the disturbance in the power grid on the transmission pattern of data packets over the grid data network. In this scheme, the angle change information is transmitted in the form of GOOSE packets simultaneously from the IEDs that readily measure the angles of the affected generators. On the other hand, the detecting device identifies the stability status of each affected generator. The proposed scheme is validated by simulating disturbances on the IEEE 39-bus system. The results show that the scheme can discriminate between stable and unstable swings. In addition, the loss of synchronism of the unstable generator is predicted ahead of its occurrence by enough time to take an appropriate action.
doi_str_mv 10.1007/s00202-023-01843-1
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The scheme adopts smart grid perception. It is an asynchronous scheme that uses the rate of change of the angle of the generator bus voltage instead of synchronously estimating the absolute rotor angle value for stability assessment. Therefore, it does not require phasor measurement units (PMUs). Instead, it uses commercially available intelligent electronic devices (IEDs). It introduces a new application of the multicast Generic Object Oriented Substation Event (GOOSE) protocol or its routable version (R-GOOSE) to reflect the disturbance in the power grid on the transmission pattern of data packets over the grid data network. In this scheme, the angle change information is transmitted in the form of GOOSE packets simultaneously from the IEDs that readily measure the angles of the affected generators. On the other hand, the detecting device identifies the stability status of each affected generator. The proposed scheme is validated by simulating disturbances on the IEEE 39-bus system. 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subjects Economics and Management
Electric power systems
Electrical Engineering
Electrical Machines and Networks
Energy Policy
Engineering
Measuring instruments
Original Paper
Packet transmission
Phasors
Power Electronics
Smart grid
Stability analysis
Substations
Synchronism
title A non-PMU-based WAN protection scheme for swing detection and stability enhancement in power systems
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