Coherency-Based Supervised Learning Approach for Determining Optimal Post-Disturbance System Separation Strategies

Sadeghi, Mohammadsadegh; Akbari, Hamidreza; Daemi, Tahereh; Mousavi, Somayeh

doi:10.1109/access.2022.3227512

Cited by 3 publications

(1 citation statement)

References 40 publications

(43 reference statements)

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“…Learning-based methods like artificial neural network (ANN) have been proposed in some literature [16][17][18] to suggest coherency-based splitting techniques. However, they are time-consuming as they require massive offline time-domain simulation to build up a training data set.…”

Section: Introductionmentioning

confidence: 99%

Voltage angle‐based coherency identification in power system

Alnassar,

Selukka Thulasiram

2024

IET Generation Trans & Dist

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Coherency detection in power system is vital step for controlled‐islanding. Model‐based slow‐coherency method is the traditional method of detecting coherent areas, which suffers from computational burdens. With the implementation of a wide‐area measurement system (WAMS) in power systems, coherent areas can be detected early after a disturbance that helps to ensure quick separation or remedial action. In this study, a novel Synchrophasor‐based coherency identification method has been proposed with bus voltage angle measurement. A new algorithm is proposed based on the first and second derivatives of the bus voltage phase angle using hierarchical clustering method for coherency detection. The proposed approach leverages hierarchical clustering method and the dynamics reflected in the bus voltage phase angle behavior to achieve automatic and accurate coherency identification. Real time simulation results demonstrate the ability of the proposed algorithm to detect the coherency with three consecutive PMU data from all the system buses and showcase coherent area boundaries. Case studies show robustness of the proposed method and is least affected by the latency in communication network compared to conventional methods. The proposed algorithm has been mathematically formulated and evaluated with different benchmark systems in OPAL‐RT real‐time simulation environment with HYPERSIM platform.

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Section: Introductionmentioning

confidence: 99%