LECTURE NOTE
- Lecture note will be posted for your reference.
LECTURE NOTE
Chapter 1_GSO Edition-5
Chapter 2_GSO Edition-5
Edition-6 Chapter 2_Problems-1
Edition-6 Chapter 2_Problems-2
Lecture Note #1: Basic Principles
Lecture 1: Introduction, Phasor, Complex Power
Lecture 2: Reactive Compensation, Three-Phase Circuits
Lecture 3: Three-Phase Power
Chapter 3_GSO Edition-5
Edition-6 Chapter 3_Problems-1
Edition-6 Chapter 3_Problems-2
Lecture Note #3-1: Power Transformers
Lecture 4: Power Transformers
Lecture 5 Per-Unit System
Lecture Note #3-2: Three-phase Transforers
Lecture 6 Three-Phase Transformers and Multi-Winding Transformers
Lecture Note #3-3: Multiwinding Transformers, Autotransformers
Lecture 7 Auto Transformers, Regulating Transformers
Lecture Note #4-1: Transmission Lines
Lecture Note #4-2: Transmission Lines
Lecture 8 Transmission Line Parameters
Chapter 4_GSO
Table A.3
Table A.4
Chapter 4_Problems-1
Chapter 4_Problems-2
Lecture 9 Transmission Line Models
Chapter 5_GSO
Chapter 5_Problems-1
Chapter 5_Problems-2
Lecture Note #5-1
Lecture Note #5-2
Lecture 10 Transmission Line Models(2)
Chapter 6_GSO
Chapter 6_Problems
Lecture Note #6-1
Lecture Note #6-2
Lecture 11 Reactive Compendation, Ybus, Power Flow
Lecture 12 Power Flow: Gauss-Seidel
Lecture 13 Power Flow: Newton-Raphson
Lecture Note #6-3
Lecture 14 Control of Power Flow, Fast Power Flow
Lecture Note #6-4
Lecture 15 Symmetrical Faults, Generator Model
Chapter 7_GSO
Chapter 7_Problems
Lecture Note #7
Lecture 16 Symmetrical Faults, Fault current
Chapter 8_GSO
Chapter 8_Problems
Chapter 9_GSO
Chapter 9_Problems-1
Chapter 9_Problems-2
Lecture 17 Symmetrical Components
Lecture 18 Unbalanced Fault Analysis
Lecture 19 Economic Dispatch
Lecture 20 Economic Dispatch, Optimal Power Flow
Chapter 6_GSO, Edition 6: Sections 6.12 & 6.13
Lecture 21 Optimal Power Flow, Linear Programming