Power System Analysis I

Power System Analysis I(Power System) Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuvan University (TU)

Intermediate 5 (1 Reviews ) 27 Students enrolled
Last updated Sun, 12-Jun-2022 Nepali
What will I learn?
  • "After Completion of this Course, Students will get complete knowledge of Power System Analysis I, based on syllabus of IoE and will be able to secure good score in IoE exam."

Curriculum for this course
155 Lessons 23h 0m
0. Introduction
1 Lessons 15m
  • Introduction Of Contents 15 Minutes Free
  • 1. Introduction of Contents 8 Minutes Free
  • 2. Power System Evolution 6 Minutes Free
  • 3. Generation, Transmission and distribution Concept 15 Minutes Free
  • 4. Advantage of three phase over 1-phase 4 Minutes Free
  • 5. Advantage of High Voltage Transmission line 7 Minutes
  • 6. Limitation of High Voltage 4 Minutes
  • 7. Main Energy Sources 18 Minutes
  • 8. Renewable Source of energy 18 Minutes
  • 9. Power System Components 19 Minutes
  • 10. HVAC and HVDC Transmission Mode of Power System 9 Minutes
  • 2078 baisakh 1.a 9 Minutes
  • 1. Contents 3 Minutes
  • 2. single phase represantation of three phase system 3 Minutes
  • 3. Single Line Diagram 4 Minutes
  • 4. Impedance and Reactance Diagram 4 Minutes
  • 5. Complex Power 5 Minutes
  • 6. Direction of Power Flow 12 Minutes
  • 7. Numerical Example-1 12 Minutes
  • 8. Per Unit System 7 Minutes
  • 9. Change of Base 6 Minutes
  • 10. Numerical example-2 16 Minutes
  • 11. Numerical example 3 16 Minutes
  • 12. Numerical Example-4 17 Minutes
  • 13. Advantage, Limitation and Application of Per Unit System 6 Minutes
  • 1. Introduction of contents 4 Minutes
  • 2. Line Inductance 3 Minutes
  • 3. Flux Linkage in a Conductor due to Internal flux 9 Minutes
  • 4. External Flux Linkage of a Conductor 5 Minutes
  • 5. Skin Effect and Proximity Effect 5 Minutes
  • 6. Inductance of Single Phase Two Wire Line 6 Minutes
  • 7. GMR Calcualtion (Numerical example-1) 11 Minutes
  • 8. GMR Calculation (Numerical example-2) 4 Minutes
  • 9. Flux Linkage of Conductor in a Group 8 Minutes
  • 10. Boundled Conductor 3 Minutes
  • 11. Inductance of Symmetrical Spacing between Conductor 6 Minutes
  • 12. Inductance of Three Phase Line for Unsymmetrical Spacing Between the Conductor 15 Minutes
  • 13. Inductance of Boundled Conductor 8 Minutes
  • 14. Numerical Example 12 Minutes
  • 15. Inductance of double Circuit three phase Line 5 Minutes
  • 16. Numerical Example-4 11 Minutes
  • 17. Capacitance of Line 4 Minutes
  • 18. Capcitance Between single phase two wire Line 8 Minutes
  • 19. Capacitance of 3-phase line in Symmetrical spacing 13 Minutes
  • 20. Numerical Example-5 4 Minutes
  • 21. Numerical Example-6 6 Minutes
  • 22. Capacitance considering effect of Earth 16 Minutes
  • 23. Numerical Example-7 8 Minutes
  • 1. Course Contents 3 Minutes
  • 2. Voltage Distribution across the discs in insulator string 8 Minutes
  • 3. String Effeciency 3 Minutes
  • 4. Numerical Example-4 7 Minutes
  • 5. Numerical example-2 9 Minutes
  • 6. Comparision of Overhead and Underground Line 6 Minutes
  • 7. Line Supports 7 Minutes
  • 8. Spacing between Conductor and Stranded Conductors 4 Minutes
  • 9. Overhead Line Insulator and its materials 7 Minutes
  • 10. Types Of Insulator 7 Minutes
  • 11. Construction of Underground Cable 6 Minutes
  • 12. Fundamental requirement of Insulating material used in cable 2 Minutes
  • 13. Classification of Cable 8 Minutes
  • 14. Numerical example-4 13 Minutes
  • 15. Insulation Resistance 2 Minutes
  • 16. Dielectric Stress in Cable 5 Minutes
  • 17. cables fault and location of fault 5 Minutes
  • 18. Murrary Loop test for location of fault 3 Minutes
  • 1. Introduction of Contents 2 Minutes
  • 2. Classification of Transmission Line 4 Minutes
  • 3. Short Transmission Line 5 Minutes
  • 4. Voltage Regulation of Short Transmission line 12 Minutes
  • 5. Numerical Example-1 9 Minutes
  • 6. Numerical Example-2 8 Minutes
  • 7. Nominal 'Pi' Model of Medium Transmission Line 12 Minutes
  • 8. Nominal 'T' model of medium Transmission Line 6 Minutes
  • 9. Numerical Example-3 15 Minutes
  • 10. Numerical Example-4 14 Minutes
  • 11. Long Transmission Line 19 Minutes
  • 12. Equivalent pi model of Long Transmission Line 10 Minutes
  • 13. Equivalent 'T' Model of Long Transmission Line 7 Minutes
  • 14. Numerical Example-5 23 Minutes
  • 1. Introduction of Content 3 Minutes
  • 2. Power Flow Through Transmission Line 15 Minutes
  • 3. Power Angle Curve 16 Minutes
  • 4. Transmission Line as a Source and Sink of Reactive Power 8 Minutes
  • 5. Surge Impedance Loading 7 Minutes
  • 6. Ferranti Effect 9 Minutes
  • 7. Reactive Compensation of Transmission Line 5 Minutes
  • 8. Shunt Capacitor Compensation 4 Minutes
  • 9. Shunt Reactor Compensation 4 Minutes
  • 10. Series Capacitor Compensation 3 Minutes
  • 11. Synchronous Compensation 7 Minutes
  • 12. Numerical Example-1 5 Minutes
  • 13. Numerical example-2 11 Minutes
  • 1. 2076 Bhadra
    • 1(a) 5 Minutes
    • 1(b) 9 Minutes
    • 2 9 Minutes
    • 3(a) 5 Minutes
    • 3(b) 4 Minutes
    • 3(c) 18 Minutes
    • 4(a) 5 Minutes
    • 4(b) 16 Minutes
    • 5(a) 18 Minutes
    • 5(b) 20 Minutes
    • 6(a) 9 Minutes
    • 6(b) 17 Minutes
    • 6(c) 21 Minutes
    2. 2076 Baishak
    • 1(a) 4 Minutes
    • 1(b) 3 Minutes
    • 1(c) 9 Minutes
    • 2(a) 7 Minutes
    • 2(b) 14 Minutes
    • 3(a) 7 Minutes
    • 3(b) 14 Minutes
    • 4(a) 16 Minutes
    • 4(b) 5 Minutes
    • 5(a) 6 Minutes
    • 5(b) 6 Minutes
    3. 2075 Baisakh
    • 1(a) 7 Minutes
    • 1(b) 5 Minutes
    • 1(c) 6 Minutes
    • 2(a) 6 Minutes
    • 2(b) 15 Minutes
    • 2(c) 4 Minutes
    • 3(a) 5 Minutes
    • 3(b) 4 Minutes
    • 3(c) 4 Minutes
    • 4(a) 6 Minutes
    • 4(b) 8 Minutes
    • 4(c) 12 Minutes
    • 5(a) 7 Minutes
    • 5(b) 4 Minutes
    • 5(c) 15 Minutes
    4. 2074 Bhadra
    • 1(a) 5 Minutes
    • 1(b) 5 Minutes
    • 2(a) 7 Minutes
    • 2(b) 6 Minutes
    • 3(a) 9 Minutes
    • 3(b) 15 Minutes
    • 4(a) 16 Minutes
    • 4(b) 10 Minutes
    • 5(a) 9 Minutes
    • 5(b) 11 Minutes
    • 6(a) 11 Minutes
    • 6(b) 9 Minutes
    5. 2075 Bhadra
    • 1(a) 7 Minutes
    • 1(b) 12 Minutes
    • 2(a) 9 Minutes
    • 2(b) 16 Minutes
    • 3(a) 6 Minutes
    • 3(b) 7 Minutes
    • 3(c) 7 Minutes
    • 4(a) 8 Minutes
    • 4(b) 14 Minutes
    • 5(a) 13 Minutes
    • 5(b) 9 Minutes
    Requirements
    • "Students are required to have knowledge of basic knowledge of Power System Analysis, based on syllabus of IoE "
    Description

    The videos herein are strictly based on syllabus of Institute of Engineering Tribhuvan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the lessons of Power System Analysis I with the solution of most frequently asked questions in final exam of BE with fundamental theories and numerical solutions. We strongly believe that, viewers will be benefited from these videos and the thirst of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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