Electrical Power System Stability - Beginner to Advanced
Generator Dynamics, Synchronism of Generators, Direct and Quadrature Axis Model, Swing Equation, Equal Area Criterion
Ratings 4.24 / 5.00
What You Will Learn!
- Fundamentals of Generator Dynamics
- Fundamentals of Transient Stability Analysis
- Single and Two Generator Transients Fundamentals and ETAP Examples
- Synchronism Between Two Generating Sources
- Synchronous Generator Direct (D) and Quadrature (Q) Axis Model
- Synchronous Generator Sub-transient, Transient and Steady-state Model
- Derivation of Swing Equation for Generator
- Derivation of Inertia Constant (H) From Moment of Inertia (J)
- Deriving Rotor Angle From Swing Equation
- Derivation of Small Disturbance Stability Equation OR Synchronizing Power
- Derivation of Simple Harmonic Motion (SHM) Equation
- Small Disturbance Stability of Single Machine Infinite Bus (SMIB) System
- Large Disturbance Stability or Equal Area Criterion
Description
"Want To Become Expert In ETAP Software and Power System Stability and Transient Analysis?" This course will help you to achieve your goals to become ETAP and Power System Expert.
Welcome to the course " Electrical Power System Stability – Beginner to Advance Level Course"
The purpose of this course is to learn power system modeling & power system stability analysis using ETAP software which will cover a range of ETAP functionalities used to design & solve various power system practical problems.
The course begins with fundamentals of generator dynamics and transient stability analysis, synchronism of generating sources, synchronous generator direct (d) and quadrature (q) axis model as well as sub-transient, transient and steady-state model, swing equation, small and large disturbance stability, equal area criterion etc. The course also covers the simulation of transient stability analysis using ETAP software. The user will be able to create a single line diagram, data entry, and quickly expand the knowledge to automatically perform multiple ‘what if’ studies using multiple scenarios. The topics are explained with theoretical aspects as well as hand calculations so that it becomes more easier to the attendees to understand the concepts.
Below major topics are covered in this course:
Fundamentals of Generator Dynamics
Fundamentals of Transient Stability Analysis
Single and Two Generator Transients Fundamentals and ETAP Examples
Synchronism Between Two Generating Sources
Synchronous Generator Direct (D) and Quadrature (Q) Axis Model
Synchronous Generator Sub-transient, Transient and Steady-state Model
Derivation of Swing Equation for Generator
Derivation of Inertia Constant (H) From Moment of Inertia (J)
Deriving Rotor Angle From Swing Equation
Derivation of Small Disturbance Stability Equation OR Synchronizing Power
Derivation of Simple Harmonic Motion (SHM) Equation
Small Disturbance Stability of Single Machine Infinite Bus (SMIB) System
Large Disturbance Stability or Equal Area Criterion
Benefits of attending this course:
Course is published using ETAP 20.5
Topics are supported with theoretical explanation
Downloadable course material and Hand Calculations
Who Should Attend!
- Beginners Who Are New To ETAP Software
- Students Preparing Their Projects/Thesis
- Graduate Electrical Engineers For Cracking The Interviews
- Professionals Working For Companies & Needs To Execute Power System Study Projects
- Project Engineers
- Electrical Technicians
- Project Managers
- Electrical Operators