JANSONS INSTITUTE OF TECHNOLOGY KARUMATHAMPATTI, COIMBATORE 641 659.

COURSE DELIVERY PLAN

Faculty Name K T SOLAIAPPAN Staff code JIT 0142

Subject Name POWER SYSTEMS OPERATION AND CONTROL Subject

code

EE 2401

Academic Year 2014 2015 Semester 7

Degree&Branch B.E. (EEE) Section A

SI.NO Lecture

Hour

Time

Allocated Details of topics to be covered

Actual Completion

Period

(min) Date Period

1 1

30 Introduction

2 20 Overall view of the subject

UNIT I INTRODUTION

3

2

10 System load

4 10 System load variation

5 30 Load characteristics(Load voltage, Static loads )

6

3

5 Load factor

7 5 Diversity factor

8 15 Load curves (daily, weekly and annual)

9 15 Load-duration curve (daily, weekly and annual)

10 4 50 Tutorial I

11

5

5 Load forecasting

12 5 Importance of load forecasting

13 5 Simple techniques of forecasting

14 15 An overview of power system operation

15 15 Overview of system Control

UNIT II - REAL POWER - FREQUENCY CONTROL

16 6

20 Basics of speed governing mechanism

17 15 Modelling- Turbine model

SI.NO Lecture

Hour

Time

Allocated Details of topics to be covered

Actual Completion

Period

(min) Date Period

18 15 Generator load Model

19 7

25 Load sharing between two synchronous machines in

parallel

20 20 Speed-load characteristics

21 8 50 Tutorial II

22 9

25 Control area concept

23 25 LFC control of a single area system

24

10

25 Static analysis of uncontrolled and controlled cases

25 25 dynamic analysis of uncontrolled and controlled

cases

26 11

30 Integration of economic dispatch control with LFC

27 20 Area control Error

28 12 50 Tutorial III

29 13

25 Economic Dispatch Control

30 20 Two-area system

31 14 50 Static analysis of uncontrolled case(derivation)

32

15

20 Tie line with frequency bias control of two-area

system

33 15 Review of Two area system

34 15 Introduction to state variable model

35 16 50 state variable model of Two area system

UNIT III REACTIVE POWERVOLTAGE CONTROL

36

17

10 Basics of reactive power control

37 5 Excitation systems

38 15 DC Excitation System

39 15 AC Excitaion System

40

18

10 Static Excitaion System

41 10 Modeling of Excitaion System

42 10 Modelling of amplifier

43 10 Modelling of Exciter

SI.NO Lecture

Hour

Time

Allocated Details of topics to be covered

Actual Completion

Period

(min) Date Period

44

19

15 Modelling of generator

45 15 Static analysis

46 15 Dynamic analysis

47 20

25 Stability compensation

48 25 Generation and absorption of reactive power.

49 21 50 Relation between voltage, power and reactive

power at a node(Derivation)

50

22

10 Methods of Voltage control

51 10 Shunt reactors

52 10 Shunt capacitors

53 10 Series capacitors

54

23

5 Static Var compensation

55 15 Types of SVC

56 20 Characterstics of SVC

57

24

10 System level control using generator voltage

magnitude setting

58 25 Tap setting of OLTC transformer.

59 10 MVAR injection of switched capacitors

60 25 50 Tutorial IV

61 26 50 Revision Unit III

UNIT IV COMMITMENT AND ECONOMIC DISPATCH

62

27

15 Constrains in Unit Commitment

63 10 Cost of generation

64 15 Incremental cost curve

65 10 Co-ordination equations without loss and with loss

66

28

15 Solution by direct method

67 10 Priority List method

68 15 Dynamic programming

69 29

10 Statement of Unit Commitment problem Constraints

70 5 Spinning reserve

SI.NO Lecture

Hour

Time

Allocated Details of topics to be covered

Actual Completion

Period

(min) Date Period

71

10 Thermal unit constraints

72 10 Hydro constraints

73 10 Fuel constraints

74

30

5 Other constraints

75 10 Solution methods Priority-list methods

76 20 Priority-list methods

77 20 Forward dynamic programming approach

78 31

25 Numerical problems only in priority-list

79 25 Method using full-load average production cost

80

32

10 Statement of economic dispatch problem

81 25 Economic Dispatch without losses

82 10 Tutorial V

83 33 50 Tutorial VI

84 34

25 Economic Dispatch with losses

85 25 Tutorial VII

86 35 50 Tutorial VIII

UNIT V COMPUTER CONTROL OF POWER SYSTEMS

87

36

15 Need of computer control of power systems.

88 25 Concept of energy control centre (or) load dispatch

centre and the functions

89

37

10 System monitoring

90 10 State Estimation

91 10 Security Assesment

92 10 Security Enhancement

93 38

10 Data acquisition and control

94 30 System hardware configuration

95 39

20 SCADA System

96 20 SCADA configuration

97 40

5 RTU

98 15 Funtions of SCADA system

SI.NO Lecture

Hour

Time

Allocated Details of topics to be covered

Actual Completion

Period

(min) Date Period

99

15 Ferures of SCADA system

100 15 Substation Control Using SCADA system

101

41

20 EMS Function

102 15 Network topology

103 5 State estimation

104

42

20 Security analysis and control

105 10 Generatio Shift Factor

106 10 Line outage distribution factor

107 43

20 Various operating states (Normal, alert, emergency,

in-Extremis and restorative)

108 20 State transition diagram

109 44 50 State transition diagram howing various state

transitions and control strategies

110 45 50 University question paper discussion

111 46 50 University question paper discussion

112 47 50 University question paper discussion

Faculty-Incharge HoD/EEE Principal

TEXT BOOKS 1. Allen. J. Wood and Bruce F. Wollenberg, Power Generation, Operation and Control, John Wiley& Sons, Inc., 2003. 2. Chakrabarti & Halder, Power System Analysis: Operation and Control, Prentice Hall of India, 2004 Edition.

REFERENCES 1. D.P. Kothari and I.J. Nagrath, Modern Power System Analysis, Third Edition, Tata McGraw Hill Publishing Company Limited, New Delhi, 2003. (For Chapters 1, 2 & 3)

2. L.L. Grigsby, The Electric Power Engineering, Hand Book, CRC Press & IEEE Press, 2001. 3. Hadi Saadat, Power System Analysis, (For the chapters 1, 2, 3 and 4)11, 2007. 4. P.Kundur, Power System Stability and Control MC Craw Hill Publisher, USA, 1994. 5. Olle.I.Elgerd, Electric Energy Systems theory An introduction Tata McGraw Hill Publishing Company Ltd. New Delhi, Second Edition 2003.