Power System Analysis

About Course

This Power System (PS) Analysis course is essential for undergraduate third-year Electrical Engineering scholars, which will introduce and explain the fundamental concepts in the field of electrical (PS) engineering.

The basic concepts of the per-unit system will be presented along with their applications in circuit applications. Transmission line parameters, their calculations, and the modeling will be introduced. Basic load flow algorithms will be covered in detail along with short-circuiting analysis and the method of symmetrical elements.

Unbalanced fault analysis and basic power system stability analysis will also be included in this lecture series. By the end of the program, the students should be able to gather high-quality knowledge of electrical (PS) components, their operation strategies, and stability analysis.

INTENDED AUDIENCE: BE/B.Tech. in Electrical Engineering

Week 1: Structure Of Power System and Few Other Aspects
Week 2: Resistance, Inductance, and Capacitance of Transmission Lines
Week 3: Power System Components and Per Unit System
Week 4: Characteristics and Performance of Transmission Lines
Week 5: Load Flow Analysis
Week 6: Load Flow Analysis (Contd.)
Week 7: Optimal System Operation
Week 8: Optimal System Operation (Contd.)
Week 9: Symmetrical Fault
Week 10:Symmetrical Components
Week 11:Unbalanced Fault Analysis
Week 12:Power System Stability

Course Content

Power System Analysis

Lecture 1 : Structure of Power Systems and Few other Aspects – I

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Lecture 2 : Structure of Power Systems and Few other Aspects – II

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Lecture 3: Structure of Power Systems and Few other Aspects – III

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Lecture 4 : Resistance and Inductance

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Lecture 5 : Resistance and Inductance (Contd.)

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Lecture 6 : Resistance and Inductance (Contd.)

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Lecture 7 : Resistance and Inductance (Contd.)

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Lecture 8 : Resistance and Inductance (Contd.)

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Lecture 9 : Resistance and Inductance (Contd.)

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Lecture 10 : Resistance and Inductance (Contd.)

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Lecture 11: Capacitance of Transmisson Lines

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Lecture 12: Capacitance of Transmisson Lines (Contd.)

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Lecture 13: Capacitance of Transmisson Lines (Contd.)

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Lecture 14: Capacitance of Transmisson Lines (Contd.)

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Lecture 15: Power System Componets and per-unit system

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Lecture 16: Power System Components and per-unit system(Contd.)

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Lecture 17: Power System Componets and per-unit system(Contd.)

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Lecture 18: Power System Components and per-unit system(Contd.)

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Lecture 19: Power System Components and per-unit system(Contd.)

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Lecture 20: Power System Componets and per-unit system(Contd.)

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Lecture 21 : Characteristic and performance of transmission lines

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Lecture 22 : Characteristic and performance of transmission lines(Contd.)

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Lecture 23 : Characteristic and performance of transmission lines(Contd.)

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Lecture 24 : Characteristic and performance of transmission lines(Contd.)

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Lecture 25 : Characteristic and performance of transmission lines(Contd.)

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Lecture 26 : Load flow studies

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Lecture 27 : Load flow studies(Contd.)

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Lecture 28 : Load flow studies(Contd.)

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Lecture 29 : Load flow studies(Contd.)

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Lecture 30 : Load flow studies(Contd.)

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Lecture 31: Load flow studies(Contd.)

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Lecture 32: Load flow studies(Contd.)

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Lecture 33: Load flow studies(Contd.)

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Lecture 34: Load flow studies(Contd.)

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Lecture 35: Load flow studies(Contd.)

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Lecture 36 : Load flow studies (Contd.)

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Lecture 37 : Optimal system operation

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Lecture 38 : Optimal system operation (Contd.)

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Lecture 39 : Optimal system operation (Contd.)

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Lecture 40 : Optimal system operation (Contd.)

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Lecture 41 : Optimal system operation (Contd.)

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Lecture 42 : Optimal system operation (Contd.)

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Lecture 43 : Optimal system operation (Contd.)

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Lecture 44 : Optimal system operation (Contd.)

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Lecture 45 : Three phase fault studies

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Lecture 46 :Three phase fault studies (Contd.)

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Lecture 47 : Three phase fault studies (Contd.)

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Lecture 48 : Three phase fault studies (Contd.)

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Lecture 49 : Symmetrical components

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Lecture 50 : Symmetrical components (Contd.)

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Lecture 51:Symmetrical components (Contd.)

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Lecture 52: Symmetrical components (Contd.)

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Lecture 53: Symmetrical components (Contd.)

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Lecture 54: Symmetrical components (Contd.)

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Lecture 55: Power system stability

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Lecture 56 : Power system stability (Contd.)

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Lecture 57 : Power system stability (Contd.)

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Lecture 58 : Power system stability (Contd.)

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Lecture 59 : Power system stability (Contd.)

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Lecture 60 : Power system stability (Contd.)

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About Course

This Power System (PS) Analysis course is essential for undergraduate third-year Electrical Engineering scholars, which will introduce and explain the fundamental concepts in the field of electrical (PS) engineering.

What Will You Learn?

Course Content

Power System Analysis

Lecture 1 : Structure of Power Systems and Few other Aspects – I

Lecture 2 : Structure of Power Systems and Few other Aspects – II

Lecture 3: Structure of Power Systems and Few other Aspects – III

Lecture 4 : Resistance and Inductance

Lecture 5 : Resistance and Inductance (Contd.)

Lecture 6 : Resistance and Inductance (Contd.)

Lecture 7 : Resistance and Inductance (Contd.)

Lecture 8 : Resistance and Inductance (Contd.)

Lecture 9 : Resistance and Inductance (Contd.)

Lecture 10 : Resistance and Inductance (Contd.)

Lecture 11: Capacitance of Transmisson Lines

Lecture 12: Capacitance of Transmisson Lines (Contd.)

Lecture 13: Capacitance of Transmisson Lines (Contd.)

Lecture 14: Capacitance of Transmisson Lines (Contd.)

Lecture 15: Power System Componets and per-unit system

Lecture 16: Power System Components and per-unit system(Contd.)

Lecture 17: Power System Componets and per-unit system(Contd.)

Lecture 18: Power System Components and per-unit system(Contd.)

Lecture 19: Power System Components and per-unit system(Contd.)

Lecture 20: Power System Componets and per-unit system(Contd.)

Lecture 21 : Characteristic and performance of transmission lines

Lecture 22 : Characteristic and performance of transmission lines(Contd.)

Lecture 23 : Characteristic and performance of transmission lines(Contd.)

Lecture 24 : Characteristic and performance of transmission lines(Contd.)

Lecture 25 : Characteristic and performance of transmission lines(Contd.)

Lecture 26 : Load flow studies

Lecture 27 : Load flow studies(Contd.)

Lecture 28 : Load flow studies(Contd.)

Lecture 29 : Load flow studies(Contd.)

Lecture 30 : Load flow studies(Contd.)

Lecture 31: Load flow studies(Contd.)

Lecture 32: Load flow studies(Contd.)

Lecture 33: Load flow studies(Contd.)

Lecture 34: Load flow studies(Contd.)

Lecture 35: Load flow studies(Contd.)

Lecture 36 : Load flow studies (Contd.)

Lecture 37 : Optimal system operation

Lecture 38 : Optimal system operation (Contd.)

Lecture 39 : Optimal system operation (Contd.)

Lecture 40 : Optimal system operation (Contd.)

Lecture 41 : Optimal system operation (Contd.)

Lecture 42 : Optimal system operation (Contd.)

Lecture 43 : Optimal system operation (Contd.)

Lecture 44 : Optimal system operation (Contd.)

Lecture 45 : Three phase fault studies

Lecture 46 :Three phase fault studies (Contd.)

Lecture 47 : Three phase fault studies (Contd.)

Lecture 48 : Three phase fault studies (Contd.)

Lecture 49 : Symmetrical components

Lecture 50 : Symmetrical components (Contd.)

Lecture 51:Symmetrical components (Contd.)

Lecture 52: Symmetrical components (Contd.)

Lecture 53: Symmetrical components (Contd.)

Lecture 54: Symmetrical components (Contd.)

Lecture 55: Power system stability

Lecture 56 : Power system stability (Contd.)

Lecture 57 : Power system stability (Contd.)

Lecture 58 : Power system stability (Contd.)

Lecture 59 : Power system stability (Contd.)

Lecture 60 : Power system stability (Contd.)

Student Ratings & Reviews