Transient Stability Enhancement Using a Wide-Area Controlled SVC: An HIL Validation Approach

Transient Stability Enhancement Using a Wide-Area Controlled SVC: An HIL Validation Approach

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This paper presents a control scheme of a wide-area controlled static VAr compensator (WAC-SVC) and its real-time implementation in a hardware-in-the-loop (HIL) galaxy s23 ultra otterbox defender case simulation scheme with three control objectives: (1) to increase the critical clearing time, (2) to damp the power oscillations, and (3) to minimize the maximum line current.The proposed control scheme considers a correction strategy to compensate the delays up to 200 ms.In addition to this, a generator tripping scheme based on synchrophasor measurements to determine the proximity to the loss of synchronism is proposed.A delay compensation algorithm based on polynomial approximations is also developed.

The proposed WAC-SVC is experimentally validated using a Real-Time Digital Simulator platform (RTDS), industrial communication protocols, a commercial device epiphone slash anaconda for PMU-based control implementations, and digital relays with PMU capability.The real-time simulation results confirm its effectiveness and feasibility in real industrial applications.Furthermore, practical guidelines to implement this kind of control schemes are provided.