UNIT 1:
Basic components of power system and restructuring
Need for System Planning and operation and studies
objective and Introduction of Power system Analysis
Single line diagram and symbols used
Per phase and per unit analysis - Impedance and Reactance
per phase and per unit analysis - Tutorial
Generator - Transformer, Transmission line and load Representation
Primitive network - Construction of Y bus using inspection
Singular Transformation method of Y bus , Z bus
UNIT 2:
Introduction to Power Flow Analysis and Objective
Importance of power flow analysis in planning and operation
Statement of Power flow problem buses - classification
Development of power flow model in complex variables form
Iterative solution using Gauss seidal method
Flow Chart and Algorithm of Gauss seidal method
Tutorial for Gauss Seidal method
Q- limit check for voltage controlled buses
Newton raphson method flow chart and Algorithm
UNIT 3:
Introduction to Fault analysis - Balanced fault
Importance of short circuit analysis
Short circuit fault analysis on a synchronous machine
Fault analysis using Thevnins theroem
Post Fault voltage and current
Fault analysis using Z bus - Tutorials
Computation of short circuit capacity
Short circuit capacity & Tutorials
UNIT 4:
Introduction to Symmetrical faults and components
Sequence impedance and circuit of synchronous Machine
Sequence circuit of Transformer and Transmission line
Tutorials ( unbalanced Faults)
Sequence impedance and circuit of synchronous Machine
Sequence network of double line to ground fault
Line to Line and Double line to Ground Fault
Thevenins Theorem, Flow chart for Z bus
Sequence circuit of loads and sequence network analysis
UNIT 5:
Importance and Classification of power system stability
Rotor angle and small signal large , all stability
Single Machine Infinite bus system