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Class 4 Intro Power System Stability PART III
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OBJECTIVE: This chapter presents an introduction to power system stability. Specifically transient power angle stability.
AGENDA:
Definition and classification of power system stability
Rotor Angle Stability
Stability Problem in Classical Power Systems
Swing Equation
Inertia constant (H)
Power plant with multiple generators
Power-Angle equation
Synchronizing coefficients
Use of Equal Area Criterion: Single Machine Infinite Bus (SMIB)
Multi-machine stability studies: Classical Representation
Solution of the swing equation
Step by step solution of swing equation
Factors affecting Transient Stability
The main documents (slides, etc) are stored at the #ResearchGate repository:
A GitHub repository has been developed to store all scripts, and numerical examples used in this project:
AGENDA:
Definition and classification of power system stability
Rotor Angle Stability
Stability Problem in Classical Power Systems
Swing Equation
Inertia constant (H)
Power plant with multiple generators
Power-Angle equation
Synchronizing coefficients
Use of Equal Area Criterion: Single Machine Infinite Bus (SMIB)
Multi-machine stability studies: Classical Representation
Solution of the swing equation
Step by step solution of swing equation
Factors affecting Transient Stability
The main documents (slides, etc) are stored at the #ResearchGate repository:
A GitHub repository has been developed to store all scripts, and numerical examples used in this project:
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