Majmaah University
College of Engineering
Department of Electrical Engineering
Course Syllabus
Instructor Name
Course Title:
Prerequisite:
Academic Year:
Lecture Times:
Office Hours
Dr.Praveen R.P.
Power Systems Analysis
EE 372
Cr.Hrs:
3(3,1,0)
Course code:
EE288,
None
Mon (1.00 to 1.50 p.m)
Co-requisite:
Tutorial Time:
EE270
2014-2015
2
Semester:
Thu(9.00 to 9.50), Thu (1.00 to 2.50)
Lab Time:
Sun(9.00 to 10.00)
Tue (11.00 to 12.00) Thu (10.00 to
Office number
11.00)
Course Objectives
This course aims to achieve the following objectives
1 Be acquainted with the main components of a Power System
2 Understand the different methods used to represent and analyze the power system in normal and abnormal (faulty) steady state conditions
3 Ability to solve problem of an existing power system
4 Ability to think creatively for solving different types of Power System
5
1
2
3
4
5
Ability to apply skills when dealing with a given power system
Learning Outcomes
Course Learning Outcomes
Understanding the basic components of a power system a,b,c
and their representations using per unit system
Understanding of the methodology of power flow
a,b,c,e
solution and control
Understanding the theory for the economic operation of a,b,k
thermal power stations
Understanding of the power system fault analysis
a,b,c,e
methodologies
Understanding of the concepts of power system
a,k
stability analysis
ABET Student Outcomes
Assessed ABET Learning Outcome:
EE1, EE3
Assessment
1
2
3
4
5
Assessment Method
First exam
Second exam
Exercise questions and participation
Quiz and homework assignments
Final Exam
Total
Date (Week)
7
13
1,2,3,4,5,6
8,9,10,11,12,14
16
Mark
20
20
10
10
40
100
Course Contents
N
1
2
3
4
5
6
7
8
9
Short Description
Per Unit system ; Power System Matrices
Bus Admittance Matrix ; Bus Impedance Matrix
Load Flow Analysis by Gauss-Seidel Method and Newton-Raphson Method
Mid Term -I
Economic Operation of Generators : by neglecting transmission losses and by including transmission losses
Symmetrical Faults : Thevenins method and Bus Impedance Matrix method
Unsymmetrical Faults : Thevenins and Bus impedance matrix method
Mid Term - II
Stability Analysis : steady state stability, transient stability and equal area criterion
Textbook:
Books
Saadat, “ Power System Analysis”, McGraw Hill, 2 nd edition
Week
1
2,3
4,5,6
7
8
9,10
11,12
13
14,15
References:
Grainger and Stevenson, “Power System Analysis”, McGraw Hill
Glover and Sarma, “Power System Analysis and Design”, PWS, 3 rd edition