Electric Machine Design (III_I)

Electric Machine Design Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuvan University (TU)

Advanced 2 (1 Reviews ) 77 Students enrolled
Last updated Thu, 19-May-2022 Nepali
What will I learn?
  • Students will have Knowledge about Machine Design.

Curriculum for this course
193 Lessons 31h 32m
1. Mark Distribution
1 Lessons 18m
  • Syllabus and Marks distribution 18 Minutes Free
  • 1. Introduction of content 3 Minutes Free
  • 2. Introduction of Magnetic Materials 4 Minutes Free
  • 3. Classification of Magnetic materials 6 Minutes
  • 4. Hard and Shoft magnetic materials 10 Minutes
  • 5. Hot rolled and Cold rolled steel Sheets 10 Minutes
  • 6. Insulating Materials 8 Minutes
  • 7. Electrical properties of insulating materials 6 Minutes
  • 8. Temperature rise and Insulating Materials 5 Minutes
  • 9. Classification of Insulating Materials 7 Minutes
  • 10. Application of Insulating materials 8 Minutes
  • 11. Ceramics 4 Minutes
  • 12. Electrical Conducting Materials 6 Minutes
  • 13. High conductivity materials 13 Minutes
  • 14. Materials of High Resistivity 6 Minutes
  • 15. Electrical Carbon Materials 5 Minutes
  • 16. Superconductors 6 Minutes
  • 1. Contents 5 Minutes
  • 2. Mode of Heat Transfer 3 Minutes
  • 3. Conduction 9 Minutes
  • 4. Convection 12 Minutes
  • 5. Radiation 5 Minutes
  • 6. Internal Temperature (Hot spot) of electrical machine 9 Minutes
  • 7. Calculation of Internal Temperature 8 Minutes
  • 8. Numerical Example 1 6 Minutes
  • 9. Temperature Gradients In Iron Cores 7 Minutes
  • 10. Numerical example 2 8 Minutes
  • 11. Tempreture Gradient in the Conductor placed in the slots 15 Minutes
  • 12. Numerical example-3 10 Minutes
  • 13. Temperature Rise Time Relationship of Electrical Machine 6 Minutes
  • 14. Machine under Heating Condition 19 Minutes
  • 15. Numerical example-4 4 Minutes
  • 16. Machine under cooling condition 8 Minutes
  • 17. Numerical Example 5 8 Minutes
  • 18. Rating of Electrical Machine 17 Minutes
  • 19. Calculation of Temperature rise of armature 8 Minutes
  • 20. Calculation of Temperature rise of field coil 5 Minutes
  • 21. Calculation of Temperature rise of Commutator 4 Minutes
  • 22. Numerical example-6 12 Minutes
  • 1. Introduction of contents 7 Minutes
  • 2. output equation of single phase transformer 12 Minutes
  • 3. output equation of three phase transformer 7 Minutes
  • 4. output Equation vs volt per turn 6 Minutes
  • 5. Review of transformer theory 8 Minutes
  • 6. Classification of Transformer 10 Minutes
  • 7. Numerical example 1 7 Minutes
  • 8. Area and dimension of rectangular core section 7 Minutes
  • 9. Dimension of Square core 6 Minutes
  • 10. Steps core 11 Minutes
  • 11. Choice of flux density 8 Minutes
  • 12. Design of winding and choice of Current Density 12 Minutes
  • 13. Design of Insulation 6 Minutes
  • 14. Design of Window and its space factor 10 Minutes
  • 15. Design of the Yoke 5 Minutes
  • 16. Overall dimension of single phase transformer 6 Minutes
  • 17. Numerical Example 2 13 Minutes
  • 18. Overall dimension of three phase transformer 5 Minutes
  • 19. Numerical Example 3 8 Minutes
  • 20. Numerical Example 4 15 Minutes
  • 21. Numerical Example 5 14 Minutes
  • 22. Numerical Example-6 16 Minutes
  • 23. Calculation of Resistance of winding 8 Minutes
  • 24. Numerical example-7 19 Minutes
  • 25. Leakage rectance in core type of transformer 20 Minutes
  • 26. Numerical Example-8 24 Minutes
  • 27. Design of cooling system 11 Minutes
  • 28. Design of tank with tubes 13 Minutes
  • 29. Numerical example-9 15 Minutes
  • 1. Introduction of Contents 4 Minutes
  • 2. Construction principle of three phase induction motor 16 Minutes
  • 3. General concept of three phase stator winding 9 Minutes
  • 4. Introduction of main dimension of IM 12 Minutes
  • 5. Output Equation of IM 13 Minutes
  • 6. Factors affecting Size and Seperation of D, L 9 Minutes
  • 7. Choice of specific Magnetic Loading 6 Minutes
  • 8. Choice of Specific Electrical Loading 6 Minutes
  • 9. Numerical Example-1 9 Minutes
  • 10. Design of Stator winding and selection of conductors 10 Minutes
  • 11. Factors affecting while choosing Number of Stator Slots 11 Minutes
  • 12. Stator slots design 14 Minutes
  • 13. Overall dimension of stator slots 9 Minutes
  • 14. Length of mean turn and resistance of stator winding 2 Minutes
  • 15. Numerical example-2 18 Minutes
  • 16. Numerical example-3 22 Minutes
  • 17. Length of air gap 9 Minutes
  • 18. Selection of Number of Rotor Slots 4 Minutes
  • 19. Calculation of Rotor Current and Rotor area 14 Minutes
  • 20. Area of End rings 8 Minutes
  • 21. Shape and Area of Rotor 5 Minutes
  • 22. Numerical Example-4 29 Minutes
  • 23. Slip Ring Rotor design-1 9 Minutes
  • 24. Numerical example-5 11 Minutes
  • 1. Contents of DC Machine Design 4 Minutes
  • 2. Specification of DC machine 7 Minutes
  • 3. output equation of DC Machine 11 Minutes
  • 4. Seperation of D and L 8 Minutes
  • 5. Choice of average gap density 11 Minutes
  • 6. numerical example-1 6 Minutes
  • 7. Numerical example-2 8 Minutes
  • 8. Choice of Number of pole in DC machine 9 Minutes
  • 9. Pole Proportions 4 Minutes
  • 10. Selection of length of air gap 10 Minutes
  • 11. Numerical exmple 3 7 Minutes
  • 12. DC winding 7 Minutes
  • 13. Number of armature conductor 2 Minutes
  • 14. No. of coils 12 Minutes
  • 15. Design of armature slots and conductor section 7 Minutes
  • 16. Design Guidelines for Commutator 6 Minutes
  • 17. design of brushes 14 Minutes
  • 18. Numerical example-4 17 Minutes
  • 19. Numerical example-5 13 Minutes
  • 1. Three phase Induction Machine Design
    • 1. Three Phase Induction Motor Design_Part_1 4 Minutes
    • 2. Three Phase Induction Motor Design_Part_2 4 Minutes
    • 3. Three Phase Induction Motor Design_Part_3 2 Minutes
    • 4. Three Phase Induction Motor Design_Part_4 0 Minutes
    • 5. Three Phase Induction Motor Design_Part_5 4 Minutes
    • 6. Three Phase Induction Motor Design_Part_6 1 Minutes
    • 7. Three Phase Induction Motor Design_Part_7 1 Minutes
    • 8. Three Phase Induction Motor Design_Part_8 2 Minutes
    2. Transformer Machine Design
    • 1. Transformer Design Numerical_Part_1 1 Minutes
    • 2. Transformer Design Numerical_Part_2 2 Minutes
    • 3. Transformer Design Numerical_Part_3 1 Minutes
    • 4. Transformer Design Numerical_Part_4 2 Minutes
    • 5. Transformer Design Numerical_Part_5 2 Minutes
    • 6. Transformer Design Numerical_Part_6 1 Minutes
    • 7. Transformer Design Numerical_Part_7 1 Minutes
    • 8. Transformer Design Numerical_Part_8 0 Minutes
    • 9. Transformer Design Numerical_Part_9 5 Minutes
    • 10. Transformer Design Numerical_Part_10 2 Minutes
    • 11. Transformer Design Numerical_Part_11 8 Minutes
    • 12. Transformer Design Numerical_Part_12 4 Minutes
    • 13. Transformer Design Numerical_Part_13 4 Minutes
    • 14. Transformer Design Numerical_Part_14 2 Minutes
    • 15. Transformer Design Numerical_Part_15 2 Minutes
    1. 2072 Kartik
    • 1(a) 9 Minutes
    • 1(b) 6 Minutes
    • 2 11 Minutes
    • 3(a) 11 Minutes
    • 3(b) 22 Minutes
    • 4(a) 21 Minutes
    • 4(b) 7 Minutes
    • 5(a) 8 Minutes
    • 5(b) 8 Minutes
    2. 2074 Ashwin
    • 1(a) 9 Minutes
    • 1(b) 7 Minutes
    • 2(a) 7 Minutes
    • 2(b) 8 Minutes
    • 3(a) 10 Minutes
    • 3(b) 38 Minutes
    • 4(a) 8 Minutes
    • 4(b) 9 Minutes
    • 5(a) 5 Minutes
    • 5(b) 5 Minutes
    3. 2074 Chaitra
    • 1(a) 8 Minutes
    • 1(b) 6 Minutes
    • 2(a) 11 Minutes
    • 2(b) 14 Minutes
    • 3(a) 7 Minutes
    • 3(b) 38 Minutes
    • 4(a) 21 Minutes
    • 4(b) 12 Minutes
    • 5(a) 9 Minutes
    • 5(b) 6 Minutes
    4. 2075 Chaitra
    • 1(a) 8 Minutes
    • 1(b) 5 Minutes
    • 2(a) 8 Minutes
    • 2(b) 9 Minutes
    • 3(a) 26 Minutes
    • 3(b) 12 Minutes
    • 4(a) 4 Minutes
    • 4(b) 24 Minutes
    • 5(a) 12 Minutes
    • 5(b) 7 Minutes
    5. 2076 Chaitra
    • 1(a) 12 Minutes
    • 1(b) 7 Minutes
    • 2(a) 10 Minutes
    • 2(b) 8 Minutes
    • 3(a) 20 Minutes
    • 3(b) 27 Minutes
    • 4(a) 11 Minutes
    • 4(b) 21 Minutes
    • 5(a) 6 Minutes
    • 5(b) 10 Minutes
    6. 2078 Bhadra
    • 1(a) 5 Minutes
    • 1(b) 5 Minutes
    • 2(a) 5 Minutes
    • 2(b) 12 Minutes
    • 3(a) 32 Minutes
    • 3(b) 4 Minutes
    • 4(a) 7 Minutes
    • 4(b) 18 Minutes
    • 5(a) 5 Minutes
    • 5(b) 10 Minutes
    Requirements
    • Must be Enrolled in Engineering.
    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 basics of Transformer Design and Three Phase Induction Motor Design with most frequently asked questions in final exam of BE along 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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