Power Engineering: Power System Analysis

Overview

Grasp the science of Power Engineering: Power System Analysis and how it relates to launching a lucrative career. Prepare for future Power Engineering: Power System Analysis needs by looking beyond the ongoing Power Engineering: Power System Analysis impact with Discover Training’s up-to-date Power Engineering: Power System Analysis course .

Discover Training’s Power Engineering: Power System Analysis course gives you a solid foundation in Power Engineering: Power System Analysis in many settings of human development. With industry expert interviews, you’ll gain a greater understanding of Power Engineering: Power System Analysis‘s applications and limitations, as well as how it’s already been efficiently used in the field. Discover Training’s Power Engineering: Power System Analysis course will help you obtain facts and knowledge to strengthen your abilities on both standard Power Engineering: Power System Analysis techniques.

As you progress through the interactive modules of this online program, you will have a strong grasp of Power Engineering: Power System Analysis to identify new opportunities for innovation and drive digital growth within your organization. Enrol in the Power Engineering: Power System Analysis course today and leverage your knowledge tomorrow.

Description:

Industry professionals developed the content of this online Power Engineering: Power System Analysis course, combining their expertise and in-depth knowledge. The curriculum was developed by Discover Training to assist you in growing in your current role by providing you with the necessary information and concepts. As you progress through the modules of this course, you’ll learn the fundamentals of Power Engineering: Power System Analysis and explore the essential concepts.

Who is this course for?

This Power Engineering: Power System Analysis course is for you if you want to learn about the revolutionary potential of Power Engineering: Power System Analysis. Whether you are a newbie or a seasoned veteran, a grasp of challenges that Power Engineering: Power System Analysis techniques can tackle would benefit anyone working in the Power Engineering: Power System Analysis sector. This Power Engineering: Power System Analysis training covers crucial subjects that will help you overcome challenges and improve your practices.

Requirements:

Certification

Once the Power Engineering: Power System Analysis course is successfully completed, the learner can obtain the PDF certificate without any cost. The hardcopy version of the certificate is also available for only £9.99. However, anyone ordering the hardcopy certificate from outside the United Kingdom may need to pay an additional delivery charge.

Course Curriculum

Power Engineering: Power System Analysis – Part 1
Power in Single-Phase AC Circuits
	Review of Single-Phase Power for Power System Analysis	00:13:00
	Example – Single-Phase Power Systems	00:06:00
	Complex Power and the Power Triangle – Fundamental Concepts in Power Systems	00:09:00
	Example – Complex Power in Power Systems	00:10:00
	Complex Power Flow in Power Systems	00:16:00
	Example – Complex Power Flow in Power Systems	00:13:00
Power in Three-Phase AC Circuits
	Balanced Three-Phase Circuits in Power Systems	00:08:00
	Wye-Connected Loads in Power Systems	00:13:00
	Example – Wye-Connected Loads in Power Systems	00:10:00
	Delta-Connected Loads in Power Systems	00:10:00
	Example – Delta-Connected Loads in Power Systems	00:09:00
	Delta-Wye Transformation of Power System Loads	00:10:00
	Example – Delta-Wye Transformation of Power System Loads	00:13:00
	Balanced Three-Phase Power in Power Systems	00:11:00
	Per-Phase Analysis of Power Systems	00:04:00
	Example – Per-Phase Analysis of Power Systems	00:11:00
Power Engineering: Power System Analysis – Part 2
Generator Models in Power System Analysis
	The Synchronous Generator and its use in Power Systems	00:13:00
	Circuit Model	00:05:00
	Voltage Regulation	00:04:00
	The Power Angle	00:10:00
	Example – Generator Circuit Model	00:06:00
	Example – Generator Voltage Regulation	00:03:00
	Example – Generator Output Power	00:05:00
Transformer Models in Power System Analysis
	The Power Transformer and its use in Power Systems	00:05:00
	Exact Equivalent Circuit	00:11:00
	Exact Equivalent Circuit Referred to the Primary Side	00:08:00
	Approximate Equivalent Circuit Referred to the Primary Side	00:06:00
	Approximate Equivalent Circuit Referred to the Secondary Side	00:03:00
	Simplified Equivalent Circuit Referred to the Primary Side	00:04:00
	Simplified Equivalent Circuit Referred to the Secondary Side	00:03:00
The Per-Unit System in Power System Analysis
	Introduction to the Per-Unit System and its use in Power System Analysis	00:07:00
	Example – Per-Unit Calculations	00:05:00
Transmission Line Models in Power System Analysis
	Introduction to Transmission Lines and Their Use in Power Systems	00:04:00
	The Short Length Transmission Line Model	00:10:00
	Example – Short Line Models	00:11:00
Power Engineering: Power System Analysis – Part 3
Power Flow (Load Flow) Analysis in Power Systems
	Introduction to Power Flow Analysis in Power Systems	00:04:00
	The Bus Admittance Matrix of a Power System	00:20:00
	Example – Calculating the Bus Admittance Matrix of a Power System	00:09:00
	Power Flow (Load Flow) Studies in Power Systems	00:11:00
	The Power Flow Equation	00:07:00
	The Gauss-Seidel Power Flow Method – Part 1	00:15:00
	The Gauss-Seidel Power Flow Method – Part 2	00:14:00
	Example – Gauss-Seidel Power Flow Method – Part 1	00:17:00
	Example – Gauss-Seidel Power Flow Method – Part 2	00:13:00
	Example – Gauss-Seidel Power Flow Method – Part 3	00:11:00
	Example – Gauss-Seidel Power Flow Method – Part 4	00:10:00
	Example – Gauss-Seidel Power Flow Method – Part 5	00:08:00
	Example – Gauss-Seidel Power Flow Method – Part 6	00:18:00
Short Circuit Analysis of Balanced Faults in Power Systems
	Introduction to Short Circuit Analysis of Power Systems	00:06:00
	Balanced (Three-Phase) Faults in Power Systems	00:07:00
Short Circuit Analysis of Unbalanced Faults in Power Systems
	Introduction to Symmetrical Components and its use in Power Engineering	00:15:00
	Positive, Negative, and Zero Sequence Voltages in Power Systems	00:07:00
	Positive, Negative, and Zero Sequence Currents in Power Systems	00:06:00
	Positive, Negative, and Zero Sequence Impedances in Power Systems	00:09:00
Power Engineering: Power System Analysis – Part 4
Power Engineering: Power System Analysis - Part 4
	Definition of Stability in Power Systems	00:06:00
	Definition of Steady-State Stability of Power Systems	00:02:00
	Definition of Transient Stability of Power Systems	00:04:00
	The Swing Equation in Power Systems	00:18:00
	Synchronous Machine Reactances During Transients	00:10:00
	The Power Angle Curve	00:08:00
Steady-State Stability of Power Systems
	Synchronizing Power	00:15:00
	Natural Frequency of Oscillation	00:07:00
	Damping Power	00:03:00
	Damping Ratio	00:05:00
	Damped Frequency of Oscillation	00:05:00
	Rotor Angles During Transients	00:03:00
	Frequency During Transients	00:02:00
	Response Time Constant and Settling Time	00:03:00

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