Course Description
This course explores the dynamic behavior and stability of power systems, essential for ensuring reliable electricity supply. Topics include power system stability concepts, modeling of synchronous machines, transmission lines, and loads. Single-machine and multimachine dynamic models are analyzed, followed by small-signal and transient stability assessments. Voltage stability and its impact on system operation are discussed. The course also covers the challenges introduced by renewable energy integration and low-inertia power systems. Through theoretical analysis and practical case studies, students will develop skills to assess and enhance power system stability using modern control techniques and computational tools.
Intended Learning Outcomes
CILO-1: Apply modern control theory such as dynamic system modeling and small signal stability to describe and solve power system stability analysis and control problems.
CILO-2: Identify, formulate, and solve modern power system stability analysis problems using various modeling method and simulation software.
CILO-3: Evaluate and analyze current trends and emerging technologies in the field of modern power system stability analysis.