Medium voltage (MV) circuit breakers are critical components in electrical networks, ensuring not only the protection of systems from overcurrents and short circuits but also significantly contributing to the overall power quality and efficiency. This article delves into how MV circuit breakers enhance these aspects, focusing on voltage regulation, harmonic reduction, and energy loss minimization.
While their primary role is protection, MV circuit breakers and their interplay with other devices can significantly impact power quality. Let's examine key areas where their influence is felt:
Voltage Regulation
- Switching Capacitor Banks: MV circuit breakers are used for the controlled switching of capacitor banks used for reactive power compensation and voltage regulation across distribution networks.
- Tap-Changing Transformers: In some substations, MV breakers might protect feeders with on-load tap-changing (OLTC) transformers. Coordination between the breaker and OLTC control is important to avoid disruptions during voltage-regulating tap changes.
- Minimizing Switching Transients: Some MV breaker designs, particularly vacuum interrupters, produce lower switching transients, which helps maintain voltage waveform integrity and reduces stress on sensitive loads.
Voltage Regulation and Stability
Role in System Voltage Control
MV circuit breakers play a pivotal role in maintaining voltage stability within the electrical network. By swiftly responding to fault conditions and...
