Overview
This comprehensive course on Power Engineering: Power System Analysis will deepen your understanding on this topic.
After successful completion of this course you can acquire the required skills in this sector. This Power Engineering: Power System Analysis comes with accredited certification from CPD, which will enhance your CV and make you worthy in the job market.
So enrol in this course today to fast track your career ladder.
How will I get my certificate?
You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate.
Who is This course for?
There is no experience or previous qualifications required for enrolment on this Power Engineering: Power System Analysis. It is available to all students, of all academic backgrounds.
Requirements
Our Power Engineering: Power System Analysis is fully compatible with PC’s, Mac’s, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G.
There is no time limit for completing this course, it can be studied in your own time at your own pace.
Career Path
Learning this new skill will help you to advance in your career. It will diversify your job options and help you develop new techniques to keep up with the fast-changing world. This skillset will help you to—
- Open doors of opportunities
- Increase your adaptability
- Keep you relevant
- Boost confidence
And much more!
Course Curriculum
- 16 sections
- 32 lectures
- 00:00:00 total length
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Review of Single-Phase Power for Power System Analysis 00:13:00 -
Example – Single-Phase Power Systems 00:06:00
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Complex Power and the Power Triangle – Fundamental Concepts in Power Systems 00:09:00
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Example – Complex Power in Power Systems 00:10:00
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Complex Power Flow in Power Systems 00:16:00
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Example – Complex Power Flow in Power Systems 00:13:00
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Balanced Three-Phase Circuits in Power Systems 00:08:00
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Wye-Connected Loads in Power Systems 00:13:00
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Example – Wye-Connected Loads in Power Systems 00:10:00
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Delta-Connected Loads in Power Systems 00:10:00
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Example – Delta-Connected Loads in Power Systems 00:09:00
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Delta-Wye Transformation of Power System Loads 00:10:00
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Example – Delta-Wye Transformation of Power System Loads 00:13:00
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Balanced Three-Phase Power in Power Systems 00:11:00
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Per-Phase Analysis of Power Systems 00:04:00
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Example – Per-Phase Analysis of Power Systems 00:11:00
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The Synchronous Generator and its use in Power Systems 00:13:00
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Circuit Model 00:05:00
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Voltage Regulation 00:04:00
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The Power Angle 00:10:00
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Example – Generator Circuit Model 00:06:00
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Example – Generator Voltage Regulation 00:03:00
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Example – Generator Output Power 00:05:00
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The Power Transformer and its use in Power Systems 00:05:00
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Exact Equivalent Circuit 00:11:00
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Exact Equivalent Circuit Referred to the Primary Side 00:08:00
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Approximate Equivalent Circuit Referred to the Primary Side 00:06:00
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Approximate Equivalent Circuit Referred to the Secondary Side 00:03:00
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Simplified Equivalent Circuit Referred to the Primary Side 00:04:00
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Simplified Equivalent Circuit Referred to the Secondary Side 00:03:00
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Introduction to the Per-Unit System and its use in Power System Analysis 00:07:00
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Example – Per-Unit Calculations 00:05:00
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Introduction to Transmission Lines and Their Use in Power Systems 00:04:00
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The Short Length Transmission Line Model 00:10:00
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Example – Short Line Models 00:11:00
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Introduction to Power Flow Analysis in Power Systems 00:04:00
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The Bus Admittance Matrix of a Power System 00:20:00
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Example – Calculating the Bus Admittance Matrix of a Power System 00:09:00
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Power Flow (Load Flow) Studies in Power Systems 00:11:00
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The Power Flow Equation 00:07:00
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The Gauss-Seidel Power Flow Method – Part 1 00:15:00
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The Gauss-Seidel Power Flow Method – Part 2 00:14:00
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Example – Gauss-Seidel Power Flow Method – Part 1 00:17:00
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Example – Gauss-Seidel Power Flow Method – Part 2 00:13:00
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Example – Gauss-Seidel Power Flow Method – Part 3 00:11:00
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Example – Gauss-Seidel Power Flow Method – Part 4 00:10:00
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Example – Gauss-Seidel Power Flow Method – Part 5 00:08:00
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Example – Gauss-Seidel Power Flow Method – Part 6 00:18:00
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Introduction to Short Circuit Analysis of Power Systems 00:06:00
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Balanced (Three-Phase) Faults in Power Systems 00:07:00
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Introduction to Symmetrical Components and its use in Power Engineering 00:15:00
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Positive, Negative, and Zero Sequence Voltages in Power Systems 00:07:00
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Positive, Negative, and Zero Sequence Currents in Power Systems 00:06:00
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Positive, Negative, and Zero Sequence Impedances in Power Systems 00:09:00
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Definition of Stability in Power Systems 00:06:00
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Definition of Steady-State Stability of Power Systems 00:02:00
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Definition of Transient Stability of Power Systems 00:04:00
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The Swing Equation in Power Systems 00:18:00
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Synchronous Machine Reactances During Transients 00:10:00
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The Power Angle Curve 00:08:00
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Synchronizing Power 00:15:00
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Natural Frequency of Oscillation 00:07:00
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Damping Power 00:03:00
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Damping Ratio 00:05:00
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Damped Frequency of Oscillation 00:05:00
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Rotor Angles During Transients 00:03:00
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Frequency During Transients 00:02:00
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Response Time Constant and Settling Time 00:03:00
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Assignment – Power Engineering: Power System Analysis 00:00:00
Power Engineering: Power System Analysis
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ALL COURSES FOR - £99 This course includes:
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Duration:9 hours, 47 minutes
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Access:1 year access
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Level:
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CPD Points:10
