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Energy
Power Systems Analysis and Operation
1. Fundamentals of Electric Power Systems
2. Power System Modeling and Analysis Tools
3. Power Flow Analysis
4. Economic Operation and Optimization
5. Symmetrical Components and Fault Analysis
6. Power System Stability Analysis
7. Power System Control
8. Power System Protection
9. Advanced Power System Technologies
Symmetrical Components and Fault Analysis
Symmetrical Component Theory
Mathematical Foundation
Transformation Matrix
Operator 'a'
Sequence Components
Positive Sequence Components
Negative Sequence Components
Zero Sequence Components
Transformation Equations
Phase to Sequence Transformation
Sequence to Phase Transformation
Sequence Impedances
Generator Sequence Impedances
Positive Sequence Impedance
Negative Sequence Impedance
Zero Sequence Impedance
Transformer Sequence Impedances
Connection Effects on Zero Sequence
Winding Configuration Impact
Transmission Line Sequence Impedances
Untransposed Lines
Transposed Lines
Mutual Coupling Effects
Sequence Networks
Positive Sequence Network
Negative Sequence Network
Zero Sequence Network
Network Interconnections
Symmetrical Fault Analysis
Three-Phase Fault Analysis
Fault Current Calculation
Thevenin Equivalent Method
Post-Fault Voltage Calculation
Circuit Breaker Applications
Interrupting Capacity Requirements
Symmetrical Current Ratings
Asymmetrical Current Considerations
Unsymmetrical Fault Analysis
Single Line-to-Ground Fault
Sequence Network Connection
Fault Current Calculation
Voltage Calculation
Line-to-Line Fault
Sequence Network Connection
Fault Analysis Procedure
Double Line-to-Ground Fault
Sequence Network Connection
Complex Fault Analysis
Open Conductor Faults
Single Open Conductor
Double Open Conductor
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4. Economic Operation and Optimization
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6. Power System Stability Analysis