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Course List

Power System Analysis 1

  • Course Code :
    EPR 411
  • Level :
    Undergraduate
  • Course Hours :
    3.00 Hours
  • Department :
    Department of Electrical Engineering

Instructor information :

Area of Study :

 Develop the students' knowledge about the power system operation under both normal and abnormal conditions.  Prepare students to analyze power systems under normal operation and fault conditions.  Train students to use commercial software packages to study the normal operation of power systems.  Train students to perform basic experiments on power system simulator.

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Power System Analysis 1

Symmetrical components: Synthesis of unsymmetrical phasor diagrams from their symmetrical components, Symmetrical components of unsymmetrical systems, Power in terms of symmetrical components, Positive, negative and zero phase sequence networks, Unsymmetrical faults: Shunt faults, Series faults, Network matrices: Network topology, System admittance and system impedance matrices, Load flow solutions and control: Load flow equations, The Gauss-Seidel method, Newton-Raphson method and approximations, De-coupled methods, Regulating transformers.

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Power System Analysis 1

Course outcomes:

a. Knowledge and Understanding:

1- Describe power flow equations in both rectangular and polar forms.
2- Explain the transformation from phase domain to symmetrical components domain and vice versa.

b. Intellectual Skills:

1- b1. Convert power system parameters from normal units to per unit and vice versa.
2- b2. Solve power flow equations using Gauss-Seidel, Newton-Raphson and Fast-Decoupled methods.
3- b3. Apply symmetrical components' method to analyze unsymmetrical three-phase circuits.
4- b4. Analyze power systems under symmetrical and unsymmetrical faults.

c. Professional and Practical Skills:

1- c1. Use measuring instruments, and laboratory equipment to practice power system simulator experiments, collect, analyze and interpret results.
2- c2. Use of techniques, equipment, and software packages pertaining to power system analysis.
3- c3. Apply modern techniques, skills and numerical modeling methods to power system analysis.

d. General and Transferable Skills:

1- d1. Collaborate effectively within team.
2- d2. Work in stressful environment and within constraints.
3- d3. Communicate effectively
4- d4. Effectively manage tasks, time, and resources.
5- d5. Demonstrate efficient IT capabilities.

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Power System Analysis 1

Course topics and contents:

Topic No. of hours Lecture Tutorial/Practical
Bus admittance and bus impedance matrices 5 3 2
Power flow problem 5 3 2
Solving power flow equations using Gauss-Seidel method 5 3 2
Power System Modeling and per unit system 5 3 2
Solving power flow equations using Newton-Raphson method 5 3 2
Application of Fast decoupled method 5 3 2
Use of PowerWorld Simulator in solving power flow problems 5 3 2
System modeling under fault conditions 5 3 2
System representation, Symmetrical fault 5 3 2
Symmetrical faults solution using bus impedance matrix 5 3 2
Definition of symmetrical components, Sequence networks of loads and series impedances 5 3 2
Sequence networks of machines and transformers 5 3 2
Single-Line to Ground fault 5 3 2
Line-Line and Line-Line to Ground faults 5 3 2
Experiment on Power System Simulator 5 3 2

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Power System Analysis 1

Teaching And Learning Methodologies:

Teaching and learning methods
Interactive Lecturing
Problem Solving
Experiential Learning

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Power System Analysis 1

Course Assessment :

Methods of assessment Relative weight % Week No. Assess What
Computer project 10.00
Final Written exam 40.00
In Class Quizzes 5.00
Lab Experiment 5.00
Mid-Term Exams 40.00

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Power System Analysis 1

Books:

Book Author Publisher
Power System Analysis & Design J. Duncan Glover CENGAGE
Power System Analysis (EPR 512) Hadi Saadat PSA

Recommended books :

1- Hadi Saadat, “Power System Analysis”, McGraw-Hill, 2nd edition, 2004 2- J. D. Glover, M. S. Sarma and T. J. Overbye, "Power System analysis and Design", Cengage Learning, USA, 5th Edition, 2012. 3- J. J. Grainger and W. D. Stevenson, Jr., “power system analysis”, McGraw-Hill, Int. editions 1994.

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