Power System Dynamics

Understanding the basic principles of power system dynamics: active and reactive power balancing in a power system. Capability for identification of four groups in power system dynamics based on their physical character: wave, electromagnetic, electromechanical, and thermodynamic. Understanding the dependence of frequency on active and voltage on reactive power. Understanding differences between different classes of power system stability and system response under small and large disturbances.

Introduction to Power System Dynamics. Electromagnetic phenomena: synchronization, switching operations in transmission networks, subsynchronous resonance. Electromechanical phenomena: introduction to small disturbances, steady-state stability without AVR, the effect of damper windings, steady-state stability with AVR, the effect of AVR action on the damper windings, introduction to large disturbances, unbalanced fault disturbance, the effect of the pre-fault load, influence of fault distance, effect of the AVR under large disturbances. Voltage stability. The dQ/dV criterion. Critical load demand and voltage collapse. Voltage stability static analysis. Voltage stability dynamic analysis. Frequency stability.

Lectures and recitations with presentations and simulations, teacher-student interaction, homework, projects.

Student must complete and submit the required homework and project assignments, according to the schedule published at the course web site. Final mark is determined from the weighted average of scores from exams, homework, and project assignments. The use of books or notes of any kind, as well as a calculator, mobile phone, tablet or any other electronic device is allowed during the written exams.