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Non-Linear: Random Order
Dear Students
This course is offered under Syllabus Completion program. It will help the students to revise and summarize your core topics for better preparation for semester exam. The course scheduled for 15 to 20 hours to covers the core topics by the faculty those who are currently teaching this course
SCHEDULE FOR POWER SYSTEM ANALYSIS
Faculty : Dr. R. ZAHIRA
Live teaching from 1st June 2020 to 17th June 2020
Registration from on 9th May 2020 to 31st May 2020
Topics Focused On Electrical Engineering Program
Single line diagram – per unit quantities – p.u. impedance diagram – p.u. reactance diagram
Bus admittance matrix
Bus classification – Formulation of Power Flow problem in polar coordinates
– Power flow solution using Gauss Seidel method
Symmetrical short circuit analysis using Thevenin’s theorem
Bus Impedance matrix building algorithm
Symmetrical fault analysis through bus impedance matrix
Symmetrical components
Sequence impedances – Sequence networks
Analysis of unsymmetrical faults at generator terminals: LG
Analysis of unsymmetrical faults at generator terminals: LL
Classification of power system stability – Rotor angle stability
Swing equation Swing curve – Power-Angle equation
Equal area criterion
Classical step-by-step solution of the swing equation
Features
Online live Teaching
Limited Participants Only
Taught by Experts those who are teaching the syllabus Currently
Selected and core Topics will be handled
Lecture Notes will be provided
Question Banks will be provided
For Further Details
Dr.A.Clementking
Director
INTEGRATED INTELLIGENT RESEARCH (IIR)
No 29 E, Sarojammal Complex 1st Floor,Keelkattalai, Chennai - 600117,
Mobile : +91 -9884568399 ;+91 9791163515. Email : iirindia2020@gmail.com
Web : www.iirgroups.org
.
Single line diagram – per unit quantities – p.u. impedance diagram – p.u. reactance diagram on 1st June 2020 MON 6.00 pm- 7.00 pm
Bus admittance matrix on 2nd June 2020 TUE 6.00 pm- 7.00 pm
Bus classification – Formulation of Power Flow problem in polar coordinates on 5th June 2020 FRI 6.00 pm- 7.00 pm
– Power flow solution using Gauss Seidel method on 6th June 2020 SAT 6.00 pm- 7.00 pm
Symmetrical short circuit analysis using Thevenin’s theorem on 7th June 2020 SUN 6.00 pm- 7.00 pm
Bus Impedance matrix building algorithm on 10th June 2020 WED 6.00 pm- 7.00 pm
Symmetrical fault analysis through bus impedance matrix on 11th June 2020 THU 6.00 pm- 7.00 pm
Symmetrical components on 13th June 2020 SAT 6.00 pm- 7.00 pm
Sequence impedances – Sequence networks on 14th June 2020 SUN 6.00 pm- 7.00 pm
Analysis of unsymmetrical faults at generator terminals: LG on 17th June 2020 WED 7.00 pm- 8.00 pm
Analysis of unsymmetrical faults at generator terminals: LL on 18th June 2020 THU 7.00 pm- 8.00 pm
Classification of power system stability – Rotor angle stability on 20th June 2020 SAT 6.00 pm- 7.00 pm
Swing equation Swing curve – Power-Angle equation on 21st June 2020 SUN 6.00 pm- 7.00 pm
Equal area criterion on 24th June 2020 WED 7.00 pm- 8.00 pm
Classical step-by-step solution of the swing equation on 25th June 2020 THU 7.00 pm- 8.00 pm
The certificate issued for the Course will have
Only the e-certificate will be made available. No Hard copies. The certificates issued by Integrated Intelligent Research . can be e-verifiable at www.ulektzskills.com/verify.