Teaching Scheme (in Hours)
| Theory |
Tutorial |
Practical |
Total |
| 3 |
0 |
2 |
5 |
Subject Credit : 5
Examination Scheme (in Marks)
Theory
ESE (E)
|
Theory
PA (M)
|
Practical
ESE Viva (V)
|
Practical
PA (I)
|
Total
|
| 70 |
30 |
30 |
20 |
150 |
Syllabus Content
Unit-1: Introduction:
Concept of Interconnection, Hierarchical Grid arrangements, Cascade Tripping, Islanding, Load dispatch centre, Power Generation Scenario in Gujarat and India
Unit-2: Power system matrices
Brief explanation of Graph theory, Primitive Network, Ybus formation methods, Singular transformation method, Direct method, Removal of elements, Algorithm for formation of Zbus matrix addition of branch and link, Numericals [4]
Unit-3: Load flow studies
Introduction, Static Load Flow Equations, Bus Classifications, Approximate method, Gauss-Seidel Method, Newton Raphson Method, Fast Decoupled Load Flow Method, Comparison of different methods, Numericals[1]
Unit-4: Economic operation of power systems
Generator operating cost, Economic operation of generators within thermal plant, Optimal operation by co-ordination equation, Penalty factor, Derivation of transmission loss formula (Kron’s method), Unit commitment problem solution by dynamic programming,
Numericals[5]
Unit-5: Frequency and voltage control methods
Speed governing mechanism, Mathematical modeling, Adjustment of Governor characteristics, Single area control, Flat frequency control, Selective frequency control, Tie line load bias control, Methods of voltage control, Numericals[3]
Unit-6: Power system stability
Introduction, Mechanics of angular motion, The swing Education,transfer reactance, power relations, Steady state stability, Synchronizing power coefficient, Analysis of steady state stability, steady state stability with automatic voltage regulators, concept of
shunt fault, transfer reactance during fault, reduction of power system to one machine connected to infinite bus, Transient stability, simplified transient generator model, The equal area stability criterion, solution of swing equation, Numericals
Reference Books
| Sr. |
Title |
Author |
Publication |
Amazon Link |
| 1 |
Modern Power System Analysis |
D. P. Kothari, I. J. Nagrath |
Tata McGraw-Hill Education |
|
| 2 |
Power System Analysis and Stability |
S.S. Vadhera |
Khanna Publication |
|
| 3 |
Power System Analysis |
Hadi Saadat |
Tata McGraw-Hill Education |
|
| 4 |
Computer Aided Power System Analysis |
George Kusic |
CRC Press |
|
| 5 |
Elements of Power System Analysis |
William D. Stevenson |
McGraw-Hill |
|
Course Outcome
After learning the course the students should be able to:
- Model modern power system network Solve the problem of power flow through any power system network
- Find economical generation of power and rescheduling of power
