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Chapter 31

Transient Stability and System Controls

L’équation de l’oscillation

L’équation de l’oscillation

The Swing Equation is crucial for understanding the dynamics of generating units, such as a three-phase synchronous generator. It describes rotor motion ...

Modèle de machine synchrone simplifié

Modèle de machine synchrone simplifié

The Synchronous Machine Model is crucial in transient stability studies. It represents a synchronous machine with a constant internal voltage behind its ...

Stabilité multi-machines

Stabilité multi-machines

In an N-bus power system with M synchronous machines, loads are modeled as constant admittances, and network nodal equations are formulated. The ...

Modèles de machines éoliennes

Modèles de machines éoliennes

There are four types of wind turbines. Types 1 and 2 are induction machine models, where stator windings induce AC rotor currents via relative motion ...

Contrôle de la tension du générateur

Contrôle de la tension du générateur

In synchronous generators, the exciter delivers DC power to the rotor's field winding. Older models use a rotor-driven DC generator as the exciter, ...

Commande de régulateur de turbine

Commande de régulateur de turbine

Turbine-generator units in power systems store kinetic energy due to their rotation, which is released when the load increases. The electrical torque of ...

Contrôle de la fréquence de charge

Contrôle de la fréquence de charge

In sudden power surges, load-frequency control stabilizes the grid. LFC's goals are to nullify steady-state frequency error after load changes and ...

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