Computer Aided Power System Analysis
This course introduces the computational aspects of the power system analysis. The thrust of this course is description of the computer algorithms for analysis of any general power transmission system. Starting with load flow analysis, which is essentially the backbone of any power system analysis tool, this course further deals with computer algorithms for contingence analysis, state estimation and phase domain fault analysis method of any general power transmission system.
COURSE LAYOUT
Week 1 : Review of modeling of power system components and formulation of YBUS matrix
Week 2 : Basic power flow equations and Gauss-Seidel load flow method
Week 3 : Newton-Raphson load flow in polar co-ordinate
Week 4 : Newton-Raphson load flow in rectangular co-ordinate and introduction to Fast Decoupled load flow method
Week 5 : Fast Decoupled load flow method and AC-DC load flow method
Week 6 : Sparsity and optimal ordering methods
Week 7 : LU decomposition and contingence analysis
Week 8 : Line outage sensitivity factor and method of least square
Week 9 : Method of least square (contd..) and Introduction to AC state estimation
Week 10 : AC state estimation (contd..) and test for bad data detection
Week 11 : Formulation of YBUS matrix of three phase unbalanced system
Week 12 : Fault analysis in phase domain.
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