13M021RES - Power System Control
|Power System Control
|Electrical Engineering and Computing
|Type of study
|master academic studies
|Lecturer (for classes)
|Lecturer/Associate (for practice)
|Lecturer/Associate (for OTC)
|Exams: Control systems, Power system analysis
|Introduce students to the basic control concepts for regulated and deregulated power systems. Basic control loop definition and familiarisation with control resources and devices. Familiarise students with time and space problem decomposition, power system components model approximation and application for different power systems control aspects.
|Provide students with the ability to design models and develop algorithms for analysis of control loops and control device effects. Provide students with the ability to conduct simulation by using standard program packages. Provide students with ability to analyse control system performances by combining engineering intuition and mathematical algorithms.
|Contents of lectures
|General problems, goals and principles. Power system components modeling. Active power and frequency control. AGC in isolated and interconnected power systems. LFC in isolated and interconnected power systems. Reactive power and voltage control. Methods of voltage control. Excitation systems. Application of tap-changing transformers to voltage/reactive power control. FACTS devices.
|Contents of exercises
|Dynamic nonlinear and linearized power system model synthesis. Automatic frequency control loop modeling. Setting up a system for the automatic voltage control. Regulators synthesis. Analysis of system performance.
|Number of hours per week during the semester/trimester/year
|Study and Research
|Methods of teaching
|Classic lectures and lectures in electronic form (presentation). Practices include the classical tasks and problems solving using computer calculations.
|Knowledge score (maximum points 100)
|Activites during lectures