ENEE 472 Power System Analysis
and Design (3)
Required course for majors in the electrical specialty.
Catalog Description:
Power systems component modeling; transmission lines,
transformers. Load flow analysis,
symmetrical components, and fault analysis.
Lecture 3 hours.
Prerequisite:
ENEE 380 with grade of C or
better.
Textbook/References:
Glover J, Sarma
M, Power System Analysis and Design, Third edition, PSW-Kent, 2002.
Software:
Power
World Simulator
References:
Stevenson
W, Elements of Power System Analysis, 5th edition, McGraw-Hill, 1982,
1994.
Course Objectives: (numbers in brackets
indicate the relationship to engineering program outcomes)
After completing this course, the student will be capable of mathematically modeling the major elements of the power system and solving simple power flow problems to determine voltages and currents (1,2). Symmetrical component techniques will be mastered in order to provide the capability to analyze unbalanced faults (2). Design project (4).
Class/Laboratory Schedule:
Lecture either three times per week at 50 minutes
per class, or two times per week at 75 minutes per class.
Topics Covered:
Week No.
1. Transmission lines impedance and
capacitance 1, 2,3
2. Current and voltage relationship on
transmission lines 4, 5
3. System modeling and network
calculations 6, 7,8
4. Load flow solution and economic
dispatch 8,
9
5. Symmetrical three phase faults and
symmetrical components 10,11,12
6. Unsymmetrical faults 12,13,14
Contribution
to Professional Component:
Contributes
toward the 1.5 years of engineering topics as a 3 credit hour course in
engineering sciences and engineering design.
Relationship
of course to program outcomes
This course supports engineering outcomes 1, 2 and 4.
Prepared by: Dr. Ahmed H. Eltom,