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Power System Dynamics

Engineering Academy

Engineering Academy

Learn Without Limits: Free Engineering Courses

Rating 4 (6)
Course typeWatch to learn anytime
Duration 1350 Min
Start Access anytime
Language English
Views61

Pre-recorded video course. Watch anytime at your own pace.

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Power System Dynamics

Why enroll

Participants join this course to understand how power systems behave during disturbances and faults. It helps students build a strong conceptual base required for higher studies, research, and careers in power system analysis and operation.

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Course content

The course is readily available, allowing learners to start and complete it at their own pace.

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Power System Dynamics

25 Lectures

1350 min

  • Introduction to Power System Stability Problem-Part-1

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    Preview

    52 min

  • Introduction to Power System Stability Problem-Part-2

    52 min

  • Introduction to Power System Stability Problem-Part-3

    41 min

  • Solution of Switching Equation

    59 min

  • The Equal Area Criterion for Stability-Part-1

    52 min

  • The Equal Area Criterion for Stability-Part-2

    57 min

  • Transient Stability Analysis of a Multi Machine System

    51 min

  • Modeling of Synchronous Machine-Part-1

    55 min

  • Modeling of Synchronous Machine-Part-2

    55 min

  • Modeling of Synchronous Machine-Part-3

    58 min

  • Modeling of Synchronous Machine-Part-4

    54 min

  • Synchronous Machine Representation for Stability Studies-Part-1

    55 min

  • Synchronous Machine Representation for Stability Studies-Part-2

    56 min

  • Excitation Systems-Part-1

    58 min

  • Excitation Systems-Part-2

    52 min

  • Modeling of Excitation Systems-Part-1

    56 min

  • Modeling of Excitation Systems-Part-2

    56 min

  • Small Signal Stability of a Single Machine Infinite Bus System-Part-1

    52 min

  • Small Signal Stability of a Single Machine Infinite Bus System-Part-2

    55 min

  • Small Signal Stability of a Single Machine Infinite Bus System-Part-3

    57 min

  • Small Signal Stability of a Single Machine Infinite Bus System-Part-4

    58 min

  • Small Signal Stability of a Single Machine Infinite Bus System-Part-5

    56 min

  • Dynamic Modeling of Steam turbines and Governors

    51 min

  • Dynamic modeling of Hydro Turbines and Governors

    47 min

  • Load modeling for Stability Studies

    55 min

Course details

This course introduces the basic ideas of power system dynamics and stability in a clear and easy way. It explains what power system stability means and why it is important for the safe and reliable operation of electric power systems. The course discusses the different types of stability problems that can occur when a system is disturbed by faults or sudden load changes. Students learn about rotor dynamics and how generators respond to these disturbances. The swing equation is introduced to describe the motion of generator rotors in a simple mathematical form. The course also explains how power systems are modeled for dynamic studies. Basic mathematical models of generators and power systems are covered without heavy complexity. Numerical methods used to solve dynamic equations are introduced step by step. Real-world operating challenges and stability issues are highlighted through practical examples. By the end, learners gain a strong foundation for understanding advanced power system stability topics.

Source: nptelhrd [Youtube Channel]

Course suitable for

  • Automotive
  • Electrical
  • Engineering & Design

Key topics covered

  • Introduction to Power System Stability Problem – Part 1

  • Introduction to Power System Stability Problem – Part 2

  • Introduction to Power System Stability Problem – Part 3

  • Solution of Switching Equation

  • The Equal Area Criterion for Stability – Part 1

  • The Equal Area Criterion for Stability – Part 2

  • Transient Stability Analysis of a Multi Machine System

  • Modeling of Synchronous Machine – Part 1

  • Modeling of Synchronous Machine – Part 2

  • Modeling of Synchronous Machine – Part 3

  • Modeling of Synchronous Machine – Part 4

  • Synchronous Machine Representation for Stability Studies – Part 1

  • Synchronous Machine Representation for Stability Studies – Part 2

  • Excitation Systems – Part 1

  • Excitation Systems – Part 2

  • Modeling of Excitation Systems – Part 1

  • Modeling of Excitation Systems – Part 2

  • Small Signal Stability of a Single Machine Infinite Bus System – Part 1

  • Small Signal Stability of a Single Machine Infinite Bus System – Part 2

  • Small Signal Stability of a Single Machine Infinite Bus System – Part 3

  • Small Signal Stability of a Single Machine Infinite Bus System – Part 4

  • Small Signal Stability of a Single Machine Infinite Bus System – Part 5

  • Dynamic Modeling of Steam Turbines and Governors

  • Dynamic Modeling of Hydro Turbines and Governors

  • Load Modeling for Stability Studies

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Pune, India

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