Course Curriculum
- 16 sections
- 69 lectures
- 9 hours, 47 minutes total length
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Review of Single-Phase Power for Power System Analysis00:13:00
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Example – Single-Phase Power Systems00:06:00
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Complex Power and the Power Triangle – Fundamental Concepts in Power Systems00:09:00
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Example – Complex Power in Power Systems00:10:00
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Complex Power Flow in Power Systems00:16:00
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Example – Complex Power Flow in Power Systems00:13:00
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Balanced Three-Phase Circuits in Power Systems00:08:00
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Wye-Connected Loads in Power Systems00:13:00
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Example – Wye-Connected Loads in Power Systems00:10:00
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Delta-Connected Loads in Power Systems00:10:00
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Example – Delta-Connected Loads in Power Systems00:09:00
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Delta-Wye Transformation of Power System Loads00:10:00
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Example – Delta-Wye Transformation of Power System Loads00:13:00
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Balanced Three-Phase Power in Power Systems00:11:00
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Per-Phase Analysis of Power Systems00:04:00
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Example – Per-Phase Analysis of Power Systems00:11:00
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The Synchronous Generator and its use in Power Systems00:13:00
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Circuit Model00:05:00
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Voltage Regulation00:04:00
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The Power Angle00:10:00
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Example – Generator Circuit Model00:06:00
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Example – Generator Voltage Regulation00:03:00
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Example – Generator Output Power00:05:00
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The Power Transformer and its use in Power Systems00:05:00
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Exact Equivalent Circuit00:11:00
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Exact Equivalent Circuit Referred to the Primary Side00:08:00
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Approximate Equivalent Circuit Referred to the Primary Side00:06:00
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Approximate Equivalent Circuit Referred to the Secondary Side00:03:00
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Simplified Equivalent Circuit Referred to the Primary Side00:04:00
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Simplified Equivalent Circuit Referred to the Secondary Side00:03:00
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Introduction to the Per-Unit System and its use in Power System Analysis00:07:00
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Example – Per-Unit Calculations00:05:00
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Introduction to Transmission Lines and Their Use in Power Systems00:04:00
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The Short Length Transmission Line Model00:10:00
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Example – Short Line Models00:11:00
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Introduction to Power Flow Analysis in Power Systems00:04:00
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The Bus Admittance Matrix of a Power System00:20:00
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Example – Calculating the Bus Admittance Matrix of a Power System00:09:00
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Power Flow (Load Flow) Studies in Power Systems00:11:00
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The Power Flow Equation00:07:00
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The Gauss-Seidel Power Flow Method – Part 100:15:00
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The Gauss-Seidel Power Flow Method – Part 200:14:00
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Example – Gauss-Seidel Power Flow Method – Part 100:17:00
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Example – Gauss-Seidel Power Flow Method – Part 200:13:00
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Example – Gauss-Seidel Power Flow Method – Part 300:11:00
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Example – Gauss-Seidel Power Flow Method – Part 400:10:00
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Example – Gauss-Seidel Power Flow Method – Part 500:08:00
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Example – Gauss-Seidel Power Flow Method – Part 600:18:00
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Introduction to Short Circuit Analysis of Power Systems00:06:00
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Balanced (Three-Phase) Faults in Power Systems00:07:00
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Introduction to Symmetrical Components and its use in Power Engineering00:15:00
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Positive, Negative, and Zero Sequence Voltages in Power Systems00:07:00
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Positive, Negative, and Zero Sequence Currents in Power Systems00:06:00
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Positive, Negative, and Zero Sequence Impedances in Power Systems00:09:00
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Definition of Stability in Power Systems00:06:00
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Definition of Steady-State Stability of Power Systems00:02:00
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Definition of Transient Stability of Power Systems00:04:00
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The Swing Equation in Power Systems00:18:00
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Synchronous Machine Reactances During Transients00:10:00
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The Power Angle Curve00:08:00
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Synchronizing Power00:15:00
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Natural Frequency of Oscillation00:07:00
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Damping Power00:03:00
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Damping Ratio00:05:00
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Damped Frequency of Oscillation00:05:00
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Rotor Angles During Transients00:03:00
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Frequency During Transients00:02:00
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Response Time Constant and Settling Time00:03:00
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Assignment – Power Engineering: Power System Analysis