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Power System Analysis

EE-449  POWER SYSTEM ANALYSIS II

Textbook:     Power Systems Analysis, Second Edition Hadi Saadat; McGraw-Hill, 2002
I
nstructor:    Hadi Saadat

Second edition is replaced by

Power System Analysis Third Edition, Hadi Saadat
PSA Publishing 2010 (ISBN: 978-0-9845438-0-9)


Order Power System Analysis Third Edition at PSA Publishing also available at
Amazon.com

Catalog Data
Course Schedule
Course Policy and Examinations
Transformer & Induction
MATLAB Gui Files

Power System Analysis, Second Edition Including Power Toolbox

Introduction to MATLAB
MATLAB Student Version

Course Description

This course is a continuation of EE-447which provides students with a working knowledge of power system problems and computer techniques used to solve some of these problems. Topics include optimal dispatch of generation, symmetrical three-phase faults, symmetrical components, unsymmetrical faults, technical treatment of the general problem of power system stability and its relevance.

Course Schedule

Week Day TOPIC Chapter
1 1 Optimal dispatch of generation: Introduction   7
  2 Nonlinear function optimization, Constrained parameter optimization 7
  3 Operating cost of a thermal plant, economic scheduling of generation 7
2 1 Economic scheduling including losses 7
  2 Economic scheduling including losses Continuied 7
  3 Derivation of Loss formula 7
3 1 Transient phenomena Ch. 8, 8.2
  2 Simplified models of synchronous machine for transient analysis Ch. 8, 8.7
  3 Effect of load current Ch. 8
4 1 Review  
  2 Test # 1  
  3 Balanced three-phase fault 9
5 1 Systematic fault analysis using bus impedance matrix 9
  2 Systematic fault analysis using bus impedance matrix 9
  3 Good Friday  
6 1 Algorithm for formation of bus impedance matrix 9
  2 Bus impedance matrix continued 9
  3 The symmetrical Component Transformation 10
7 1 Sequence impedances of circuit elements 10
  2 Single line-to-ground 10
  3 Line-to-line faults and doubleline-to-ground faultd 10
8 1 Analysis of unsymmetrical faults using the bus impedance matrix 10
  2 Test #2  
  3 Stability analysis. The swing equation 11
9 1 Steady-state stability - small disturbances 11
  2 Numerical solution of nonlinear equations 11
  3 Numerical solution of the swing equation 11
10 1 Numerical solution of the swing equation Continued 11
  2 Numerical solution of multi machine systems 11
  3 Review  
11   Final Examination  

Test Schedule and Grading:

Test # 1 Tuesday, March 30 20%
Test # 2 Tuesday, April 27 20%
Homework   20%
Presentation   10%
Final Tuesday, May 18 (2:00-4:00) 30%

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