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Real-Time Transient Instability Identification in Power Systems using a PMU-Based EMS System

Modern power systems are confronted with operational challenges that increase the risk of transient instability. Existing Dynamic Security Assessment (DSA) tools have limitations, necessitating accurate and timely assessment of transient stability. To address this, a novel approach for real-time ide...

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Bibliographic Details
Main Authors: Sarmin M.K.N.M., Saadun N., Azmi M.T., Abidin I.Z.
Other Authors: 56177713500
Format: Conference Paper
Published: Institute of Electrical and Electronics Engineers Inc. 2024
Subjects:
cascading analysis
hardware-in-the-loop simulation
linear state estimation
performance index
phasor measurement unit
Transient stability
Data Analytics
Electric power system interconnection
Electric power system protection
Energy management systems
Hardware-in-the-loop simulation
Learning systems
Real time systems
State estimation
Synthetic apertures
System stability
Wide area networks
Cascading analyse
Hardwarein-the-loop simulations (HIL)
Linear state estimation
Operating condition
Operational challenges
Performance indices
Power
Real- time
Time transient
Transient instability
Phasor measurement units
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Summary:Modern power systems are confronted with operational challenges that increase the risk of transient instability. Existing Dynamic Security Assessment (DSA) tools have limitations, necessitating accurate and timely assessment of transient stability. To address this, a novel approach for real-time identification of transient instability is introduced in this paper using a Thevenin equivalent network model. The proposed method leverages synchronized phasor measurements and incorporates PMU-based Energy Management System (EMS) with Linear State Estimation (LSE) alongside snapshots from existing EMS systems, cascading analysis application, and a performance index (PI) to rank cascading outages based on severity. A case study demonstrates the effectiveness of the proposed method to identify transient instabilities in a large interconnected power system through real-time hardware-in-the-loop (HIL) simulations. By offering enhanced accuracy and efficiency in real-time stability assessment, the method empowers grid operators to promptly act and prevent wide area outages during challenging operating conditions. Future research directions encompass integration with Wide-Area Monitoring, Protection, and Control (WAMPAC) system, incorporation of advanced machine learning techniques alongside data analytics, as well as scalability examination across diverse operating conditions and contingencies. � 2023 IEEE.

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