Electrical Power Systems II Lecture Notes - Merowe University

Summary

These lecture notes cover Electrical Power Systems II, a course taught at Merowe University of Technology. The course focuses on topics like the per-unit system, power flow analysis, and fault calculations, with reference to various textbooks. The material is suited for undergraduate students in electrical engineering.

Full Transcript

Merowe University of
Technology
Abdulatif Alhamad
Faculty of Engineering
Electrical Engineering Department

8th semester

Electrical Power System II
Lec 1:Per unit system

Dr. Sara Yahia Altahir 1
 Electrical Power Systems II
3(2,0,2)
Course Details:
Course Code: EE 4207
Course Title: Electrical Power Systems II
Prerequisite: Electrical Power Systems I
(EE 4104)
Credit Hours: 3 credit hours

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 Syllabus
 Per Unit System.
 Power Systems Matrices.
 Study of power flow (load flow ).
 Gauss Seidel.
 Newton Raphson.
 Fast Decoupled Newton Raphson
Techniques.
 Symmetrical Components.
 Study of Power Systems Faults.
 Symmetrical and non Symmetrical Short
Circuit Faults.
 Short Circuit Analysis.
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 Formation of the Z Matrix.
Textbook:-
Hadi Saadat , Power System Analysis ,
PSA Publishing; THIRD EDITION edition,
June 16 , 2010.
References:-
1. J. Duncan Glover , Mulukutla S. Sarma ,
Thomas Overbye , Power System Analysis and
Design , Cengage Learning; 5 th edition,
January 3 , 2011.
2. William D. Stevenson, “ Elements of Power
System Analysis ", 4 th ed , McGraw Hill, 1999.
3. T K Nagsarkar M S Sukhija Power System
Analysis ””,Oxford Uni Press, 2007.

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 Course Objectives:-

To make the student familiar with: per
unit system, power flow studies,
Symmetrical components, symmetrical
and unsymmetrical faults, modeling,
solution and analysis of electric power
systems.

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 Course Description:-

1. Representation of Power Systems: per
unit system and single line diagram.
2. Power Systems Matrices: bus admittance
and impedance matrices.
3. Load flow analysis: Gauss Seidel and
Newton Rapson methods.
4. Symmetrical fault calculation methods:
Symmetrical components, sequence networks
and unsymmetrical Fault calculation.

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 Course Learning Outcomes:-
 Attending this course, the student will gain
the following outcomes:
1. Students will be able to apply per unit models of
power system components such as generators,
transformers, transmission lines, etc.
2. Students will be able to perform network
calculation: admittance and impedance matrices,
node elimination, and modification of existing bus
impedance.
3. Students will learn how to use the numerical
techniques applied to the load flow problems.
4. Students will study the symmetrical components
technique.
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5. Students will be able to analyze unsymmetrical
‫( نظام الوحدة‬P.U. or PU or pu)

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Note:
 In an electrical network, the same base volt-
ampere (VA) is used in all parts of the system.
 one base voltage is selected arbitrarily at any
point in the system.
 Base voltages at all other points must be
related to the arbitrarily selected base voltage
by the turn ratios of the connecting
transformers.
 For single-phase systems, or balanced 3-phase
systems (when solved as a single line with a
neutral return), the base quantities in the
impedance diagram are per phase volt-ampere
in MVA and line-to-neutral voltage in kV.
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End of lecture 1
Thank you

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