|
Unit No |
Description |
Scheduled Duration |
Date of conduction |
COs* |
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|
From |
To |
From |
To |
|||
|
1 |
Per Unit Representation & Topology |
19-11-18 |
10-12-18 |
19-11-18 |
13-12-18 |
C322.1 |
|
2 |
Power Flow Studies |
12-12-18 |
31-12-18 |
15-12-18 |
5-01-19 |
C322.2 |
|
3 |
Z–Bus formulation |
2-1-19 |
12-1-19 |
7-1-18 |
12-1-19 |
C322.3 |
|
4 |
Symmetrical Fault Analysis |
21-1-19 |
9-2-19 |
21-1-18 |
9-2-19 |
C322.4 |
|
5 |
Symmetrical
Components & Fault analysis |
10-2-19 |
25-2-19 |
11-2-19 |
27-2-19 |
C322.5 |
|
6 |
Power System
Stability Analysis |
3-03-19 |
14-03-19 |
3-3-19 |
14-3-19 |
C322.6 |
|
MID-I |
07-1-19 |
23-1-19 |
|
|
||
|
MID-II |
25-3-19 |
30-3-19 |
|
|
||
|
S.NO |
UNIT No. |
Topic Name |
Reference
text book |
No. of
Periods |
Delivery
method |
||
|
UNIT – I PER UNIT REPRESENTATION & TOPOLOGY |
|||||||
|
1 |
1.1 |
Per Unit Quantities |
Modern Power system Analysis – by I.J.Nagrath&D.P.Kothari: Tata
McGraw–Hill Publishing Company, 2nd edition |
1 |
PPT |
||
|
2 |
1.2 |
Single line
diagram– Impedance diagram of a power system |
1 |
Talk
& Chalk |
|||
|
3 |
1.3 |
Graph theory definition |
1 |
Talk & Chalk |
|||
|
4 |
1.4 |
Formation of
element node incidence and bus incidence matrices |
2 |
Talk & Chalk |
|||
|
5 |
1.5 |
Primitive network representation |
1 |
Talk & Chalk |
|||
|
6 |
1.6 |
Formation of Y–bus matrix by singular
transformation and direct inspection
methods |
2 |
PPT |
|||
|
7 |
T1 |
Per unit
quantities, problems on single line diagram |
1 |
Tutorial |
|||
|
8 |
T2 |
Problems
on Y Bus matrix |
1 |
Tutorial |
|||
|
9 |
T3 |
Problems
on Y Bus matrix |
1 |
Tutorial |
|||
|
|
Sub total |
11 |
|
||||
|
UNIT-II POWER FLOW STUDIES |
|||||||
|
10 |
2.1 |
Necessity of power flow studies |
Modern Power system Analysis – by
I.J.Nagrath&D.P.Kothari: Tata McGraw–Hill Publishing Company, 2nd edition |
1 |
Talk & Chalk |
||
|
11 |
2.2 |
Derivation of
static power flow equations |
1 |
Talk
& Chalk |
|||
|
12 |
2.3 |
Power flow solution using Gauss-Seidel
Method |
3 |
Talk
& Chalk |
|||
|
13 |
T4 |
Problems on
Gauss-seidal methods |
1 |
Tutorial |
|||
|
14 |
T5 |
Problems on
Newton –rapson methods |
1 |
Tutorial |
|||
|
15 |
2.4 |
Newton Raphson Method (Rectangular and
polar coordinates form) |
3 |
Talk
& Chalk |
|||
|
16 |
2.5 |
Decoupled and
Fast Decoupled methods – Algorithmic approach |
2 |
PPT |
|||
|
17 |
2.6 |
Problems on
3–bus system only |
2 |
Talk
& Chalk |
|||
|
18 |
T6 |
Problems on
Decoupled methods |
1 |
Tutorial |
|||
|
|
|
15 |
|
||||
|
Unit-III Z–BUS
FORMULATION |
|||||||
|
19 |
3.1 |
Formation
of Z–Bus: Partial network Algorithm for the Modification of Zbus
Matrix for addition element for the following cases: Addition of
element from a new bus to reference–Addition of element from a new bus to an
old bus– Addition of element between an old bus to reference and Addition of
element between two old busses (Derivations and Numerical Problems). |
Modern
Power system Analysis – by I.J.Nagrath&D.P.Kothari: Tata McGraw–Hill
Publishing Company, 2nd edition |
4 |
Talk
& Chalk |
||
|
20 |
T7 |
Z
bus matrix for addition of a element |
1 |
Tutorial |
|||
|
21 |
T8 |
Problems
on addition of element from old bus to reference bus |
1 |
Tutorial |
|||
|
22 |
3.2 |
Modification of Z–Bus for the changes in
network |
1 |
Talk
& Chalk |
|||
|
23 |
3.3 |
Problems |
3 |
Talk
& Chalk |
|||
|
24 |
T9 |
Problem on modification of Z–Bus for the changes in
network |
1 |
Tutorial |
|||
|
|
|
11 |
|
||||
|
UNIT
– IV SYMMETRICAL FAULT
ANALYSIS |
|||||||
|
25 |
4.1 |
Transients on a Transmission line-Short
circuit of synchronous machine(on no-load) |
Power System Analysis by
HadiSaadat – TMH Edition |
1 |
Talk & Chalk |
||
|
26 |
4.2 |
3–Phase short circuit currents and
reactance’s of synchronous machine |
2 |
Talk & Chalk |
|||
|
27 |
4.3 |
Short circuit MVA calculations |
3 |
Talk & Chalk |
|||
|
28 |
4.4 |
Series reactors |
1 |
Talk & Chalk |
|||
|
29 |
4.5 |
Selection of
reactors |
1 |
Talk & Chalk |
|||
|
30 |
T10 |
Problems on
symmetrical Components |
1 |
Talk
& Chalk |
|||
|
|
Sub total |
9 |
|
||||
|
UNIT-V SYMMETRICAL COMPONENTS & FAULT
ANALYSIS |
|||||||
|
31 |
5.1 |
Definition of symmetrical components -
symmetrical components of unbalanced three phase systems |
Power System Analysis by
HadiSaadat – TMH Edition |
1 |
Talk & Chalk |
||
|
32 |
5.2 |
Power in
symmetrical components |
1 |
PPT |
|||
|
33 |
5.3 |
Sequence impedances, Synchronous generator
Transmission
line and transformers |
2 |
Talk & Chalk |
|||
|
34 |
5.4 |
Sequence
networks |
1 |
Talk & Chalk |
|||
|
35 |
T11 |
Problems on
sequence networks |
1 |
Tutorial |
|||
|
36 |
5.5 |
Various types of faults LG,LL, LLG and
LLL on unloaded
alternator |
4 |
Talk & Chalk |
|||
|
37 |
5.6 |
unsymmetrical
faults on power system |
2 |
Talk & Chalk |
|||
|
38 |
T12 |
Problems on
different types of faults |
1 |
Tutorial |
|||
|
39 |
T13 |
Problems on
different types of faults |
1 |
Tutorial |
|||
|
|
Sub total |
14 |
|
||||
|
UNIT
– VI POWER SYSTEM STABILITY ANALYSIS |
|||||||
|
40 |
6.1 |
Elementary
concepts of Steady state– Dynamic and Transient Stabilities |
Modern
Power System Analysis – by I.J.Nagrath & D.P.Kothari |
1 |
Talk & Chalk |
||
|
41 |
6.2 |
Description
of Steady State Stability Power Limit |
1 |
Talk & Chalk |
|||
|
42 |
6.3 |
Transfer
Reactance |
1 |
Talk & Chalk |
|||
|
43 |
T14 |
Problems on
steady state stability |
1 |
Tutorial |
|||
|
44 |
6.4 |
Synchronizing Power
Coefficient |
2 |
PPT |
|||
|
45 |
6.5 |
Power Angle
Curve and Determination of Steady State Stability |
2 |
PPT |
|||
|
46 |
6.6 |
Derivation
of Swing Equation |
1 |
Talk & Chalk |
|||
|
47 |
6.7 |
Determination
of Transient Stability by Equal Area Criterion |
3 |
Talk & Chalk |
|||
|
48 |
6.8 |
Applications
of Equal Area Criterion |
1 |
Talk & Chalk |
|||
|
49 |
6.9 |
Methods
to improve steady state and transient stability |
1 |
Talk & Chalk |
|||
|
50 |
T15 |
Problems
on swing equation |
1 |
Tutorial |
|||
|
|
Sub total |
15 |
|
||||
|
|
Grand total |
75 |
|
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