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Power Systems Analysis (1)

What Will Learn?

  • Course Aims
    • Understand fundamentals of power systems and per unit system.. • Apply the fundamental principles to analyze symmetrical components and short circuit . • Explore the analysis of stability using equal area criterion.. • Develop skills for analyzing computer programs of load flow analysis.
  • Course Goals
  • Affordable and Clean Energy
  • Responsible Consumption and Production

Requirements

EPM331s

Description

  • English Description

    Per-unit systems, Symmetrical Components theory, Short circuit current characteristics, Graph Theory, power system incidence and admittances matrices, static power network equivalents. Symmetrical and unsymmetrical shunt and series faults: L-G, L-L, LL-G, a-open, b & c open faults. Formulation of Load Flow Equations, approximate (decoupled) solution of Load flow, solution of load flow problem using numerical techniques (Gauss-Sidle and Newton-Raphson), and load flow analysis. Load flow and short circuit analysis using computer software packages.
  • Arabic Description

    Per-unit systems, Symmetrical Components theory, Short circuit current characteristics, Graph Theory, power system incidence and admittances matrices, static power network equivalents. Symmetrical and unsymmetrical shunt and series faults: L-G, L-L, LL-G, a-open, b & c open faults. Formulation of Load Flow Equations, approximate (decoupled) solution of Load flow, solution of load flow problem using numerical techniques (Gauss-Sidle and Newton-Raphson), and load flow analysis. Load flow and short circuit analysis using computer software packages.
  • Department
    Electrical Power and Machines Engineering
  • Credit Hours
    3
  • Grades
    Total ( 100 ) = Midterm (20) + tr.Student Activities (20 = tr.Industry 5% , tr.Project 0% , tr.Self_learning 0% , tr.Seminar 15% ) + tr.Oral/Practical (10) + Exam Grade (50)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 2, Lab Hours: 1
  • Required SWL
    125
  • Equivalent ECTS
    5
  • [1] P.S.R. Murty ,"Power Systems Analysis" Elsevier Science & Technology, ISBN: 9780081012345, 2nd Edition - June 9, 2017
  • [2] John J. Grainger, William D. Stevenson "Power Systems Analysis" , McGraw-Hill Education, ISBN 9781259008351, 2016 - P.S.R. Murty ,Power Systems Analysis Elsevier Science & Technology, ISBN: 9780081012345, 2nd Edition June 9, 2017 - P.S.R. Murty ,Power Systems Analysis Elsevier Science & Technology, ISBN: 9780081012345, 2nd Edition June 9, 2017.