FACULTY OF ENGINEERING AND TECHNOLOGY
DEPARTMENT OF EEE
COURSE PLAN
FOR
B.TECH (EEE)
Course Code : EE0460
Course Title : Flexible AC Transmission Systems
Semester
: VIII
Course Time : DEC 2013-to May 2014
Location
: S.R.M.E.C
Course timings:
Class
Day 1
Day 2
Day 3
HR
4
1
2
Timings
11.25-12.15 AM
08.45-09.25 AM
09.25-10.25 AM
Faculty Details
S.No
Name of the Staff
Office
Office hour
Mail id
1.
S.VIDYASAGAR
ESB303
12.30 -1.30PM
vidyasagar.s@ktr.srmuniv.ac.in
Required Text Books:
1. Narain G. Hingorani and Laszlo Gyugyi, “Understanding FACTS – Concepts and Technology
of Flexible AC Transmission Systems”, Standard Publishers, New Delhi, 2001.
2. R. Mohan Mathur and Rajiv K. Varma, “Thyristor Based FACTS Controller for Electrical
Transmission Systems”, Wiley Interscience Publications, 2002
3. Narain G. Hingorani, “Flexible AC Transmission”, IEEE Spectrum, April 1993, 40-45
4. Narain G. Hingorani, “High Power Electronics in Flexible AC Transmission”, IEEE Power
Engineering Review, 1998
5. Elinar V. Larsen, Juan J Sanchez – Gasca Joe H. Chow, “Concepts for design of FACTS
controllers to damp power swings”, IEEE Transactions on Power Systems, Vol. 10, No. 2, May
1995
Web Resources:
1.
2.
3.
4.
http://eeekits.blogspot.in/2011/09/flexible-ac-transmission-system-by-pal.html
http://www.energy.siemens.com/hq/en/power-transmission/facts/
http://www.abb.com/facts
http://www.alstom.com/grid/products-and-services/engineered-energysolutions/flexible- ac-transmission-system/
5. http://www.energy.ca.gov/reports/2002-01-10_600-00-037.PDF
6. http://www.meppi.com/service/pses/documents/facts%20applications.pdf
7. Concepts of FACTS Controllers - www.ieeexplore.ieee.org/
Prerequisite : Nil INSTRUCTIONAL OBJECTIVES: To acquire the knowledge on flexible AC Transmission System and its importance for FACTS controllers. To understand the various FACTS controllers operation on FACTS systems. Assessment Details Cycle Test – I: 10 Marks Surprise Test: 05 Marks Cycle Test – II: 10 Marks Model Exam: 20 Marks Attendance: 05 Marks Total : 50 Marks Test Schedule
S. No
1
2
3
DATE
05.02.2014
05.03.2014
15.04.2014
TEST
CYCLE TEST-I
CYCLE TEST-II
MODEL EXAM
TOPICS
UNIT-I
UNIT-II & III
ALL 5 UNITS
DURATION
1 hr 30 minutes
1 hr 30 minutes
3 hrs
Outcomes: Student who have successfully completed this course,
Instructional Objective
At the end of the course the students will be
able to:
Program outcome
a).An ability to apply knowledge of
FACTS Controllers.
To acquire the knowledge on flexible AC
c). An ability to design a Compensators within
Transmission System and its importance for
realistic constraints.
FACTS controllers.
e).An ability to identify, formulate, and solve
real network problems with FACTS
controllers
To understand the various FACTS controllers
operation on FACTS systems.
h).The broad education necessary to understand
the impact of engineering solutions in a
l b l
i
EE 0460
FLEXIBLE AC TRANSMISSION SYSTEMS
PURPOSE
To enable the students gain a fair knowledge on the concepts and technology of flexible AC
transmission systems.
INSTRUCTIONAL OBJECTIVES
At the end of course the students will be able to:
1. To understand the need for FACTS
2. To learn shunt and series compensation techniques
3. To learn about controlled voltage and Phase angle regulator
4. To learn the concept of unified power flow controller
INTRODUCTION TO FACTS
Electrical Transmission Network – Necessity – Power Flow in AC System – relative
importance of controllable parameter – opportunities for FACTS – possible benefits for
FACTS
STATIC VAR COMPENSATION
Need for compensation – introduction to shunt & series compensation – objectives of shunt &
series compensation – configuration & operating characteristics – Thyristor Controlled
Reactor (TCR) – Thyristor Switched Capacitor (TSC) –Comparison of TCR & TSC
SERIES COMPENSATION
Variable Impedance Type Series Compensation: Thyristor Switched Series Capacitor
(TSSC) – Thyristor Controlled Series Capacitor (TCSC) – Basic operating control schemes
for TSSC & TCSC
STATIC VOLTAGE PHASE ANGLE REGULATOR
Objectives of voltage & phase angle regulators – approaches to Thyristor – Controlled
Voltage & Phase Angle Regulator
EMERGING FACTS CONTROLLER
STATCOM – Introduction to Unified Power Flow Controller (UPFC) & Interline Power
Flow Controller (IPFC) – basic operating principles UPFC – introduction to sub synchronous
Resonance
TEXT BOOKS
1. Narain G. Hingorani & Laszlo Gyugyi, Understanding FACTS – Concepts & Technology
of Flexible AC Transmission Systems, Standard Publishers, New Delhi, 2001.
2. Mohan Mathur, R. & Rajiv K. Varma, Thyristor Based FACTS Controller for Electrical
Transmission Systems, Wiley Interscience Publications, 2002
REFERENCE BOOKS
1. Miller. T.J.E., Reactive Power Control in Electric System, John Wiley & Sons, 1997.
2. Dubey G.K., Thyristorized Power Controller, New Age international (P) Ltd.New Delhi
2001.
3. Narain G. Hingorani, Flexible AC Transmission, IEEE Spectrum, April 1993, pp 40 – 45.
4. Narain G. Hingorani, High Power Electronics in Flexible AC Transmission, IEEE Power
Engineering Review, 1998.
5. Elinar V. Larsen, Juan J Sanchez – Gasca Joe H. Chow, Concepts for design of FACTS
controllers to damp power swings, IEEE Transactions on Power Systems, Vol. 10, No. 2,
May 1995.
UNIT – I INTRODUCTION TO FACTS
Electrical Transmission Network – Necessity – Power Flow in AC System – relative importance of
controllable parameter – opportunities for FACTS – possible benefits for FACTS
Session Topics to be
Text book
Chap.no
Testing
Instructional
Program
No.
covered
& Page
Methods Objective
Outcome
No.
1
Introduction
1
R.Mohan
1-2
Mathur and
2
Electrical
1
Rajiv K.
Transmission
1-12
Varma,
To acquire
Network–
Cycle
“Thyristor
the
Necessity
test1,
Based
knowledge
3
Power Flow in
1
surprise
FACTS
on Flexible
AC System
6-7
test and
Controller
AC
4
Relative
1
model
for
Transmission
importance of
6-7
exam.
Electrical
System and its
controllable
Transmissio
importance for
parameter
n Systems”,
5
Opportunities
1
FACTS
Wiley
for FACTS
8-12
Controllers
Interscience
6
Possible
1
Publications
benefits for
8-12
,
FACTS
2002
Technology
UNIT – II STATIC VAR COMPENSATION
Need for compensation – introduction to shunt & series compensation – objectives of shunt &
series compensation – configuration & operating characteristics – Thyristor Controlled
Reactor (TCR) – Thyristor Switched Capacitor (TSC) –Comparison of TCR & TSC
Session
No.
7
8
Topics to be
covered
Text book
Need for
compensation–
introduction to
shunt and series
compensation
Objectives of
shunt and series
compensation
R.Mohan
Mathur and
Rajiv K.
Varma,
“Thyristor
Based
FACTS
Controller
for Electrical
Transmission
Systems”,
Wiley
Interscience
Publications,
Chap.no
& Page
No.
2, 7
33-35,
227
2
33-34
Testing
Methods
Cycle
test1,
surprise
test and
model
exam
Instructional
Objective
To acquire
the
knowledge
on Flexible
AC
Transmission
System and its
importance for
FACTS
Controllers
Program
Outcome
2002
9
10
11
12
13
14
Configuration
and operating
characteristics
Thyristor
Controlled
Reactor (TCR)
Operating
characteristics of
Thyristor
Controlled
Reactor (TCR)
Thyristor
Switched
Capacitor (TSC)
Operating
characteristics
of Thyristor
Switched
Capacitor (TSC)
Comparison
of TCR,TSC
2
36-39
R.Mohan
Mathur and
Rajiv K.
Varma,
“Thyristor
Based
FACTS
Controller
for
Electrical
Transmissio
n Systems”,
Wiley
Interscience
Publications
,
2002
To acquire
the
knowledge
on Flexible
AC
Transmission
System and its
importance for
FACTS
Controllers
3
47-52
3
52-61
3
71-78
3
81
3
89-91
UNIT – III SERIES COMPENSATION
Variable Impedance Type Series Compensation: Thyristor Switched Series Capacitor (TSSC) – Thyristor
Controlled Series Capacitor (TCSC) – Basic operating control schemes for TSSC & TCSC
Session
No.
15
16
17
18
Topics to be
covered
Text book
Variable
Impedance Type
Series
Compensation
TSSC
R.Mohan
Mathur and
Rajiv K.
Varma,
“Thyristor
Based
FACTS
Controller
for
Electrical
Transmissio
n Systems”,
Wiley
Interscience
Publications
,
TCSC
Basic operating
control schemes
for TSSC&TCSC
Chap.no
& Page
No.
7
Testing
Methods
Instructional
Objective
Cycle test
II, model
exam
To acquire
the
knowledge
on Flexible
AC
Transmission
System and its
importance for
FACTS
Controllers
277-278
7
277-278
7
279-281
7
281-284
Program
Outcome
2002
UNIT – IV STATIC VOLTAGE PHASE ANGLE REGULATOR
Objectives of voltage & phase angle regulators – approaches to Thyristor – Controlled Voltage & Phase
Angle Regulator
Session
No.
Topics to be
covered
Text book
19
Objectives of
voltage and
phase angle
regulators
20
TCVR Model
and
characteristics
Approaches to
Thyristor –
Controlled
Voltage and
Phase Angle
Regulator
TCPAR Model
R.Mohan
Mathur and
Rajiv
K.
Varma,
“Thyristor
Based
FACTS
Controller
for
Electrical
Transmissio
n Systems”,
Wiley
Interscience
Publications
,
2002
21
22
Chap.no
& Page
No.
Testing
Methods
Cycle test
2, model
exam
Instructional
Objective
Program
Outcome
To acquire
the
knowledge
on Flexible
AC
Transmission
System and its
importance for
FACTS
Controllers
UNIT – V EMERGING FACTS CONTROLLER
STATCOM – Introduction to Unified Power Flow Controller (UPFC) & Interline Power Flow Controller
(IPFC) – basic operating principles UPFC – introduction to sub synchronous resonance
Session Topics to be
Text book
Chap.no
Testing
Instructional
Program
Methods Objective
No.
covered
& Page
Outcome
No.
23
STATCOM –
10 ,
To acquire
R.Mohan
413
the
Introduction,
Mathur and
knowledge
Circuit model,
Rajiv K.
on Flexible
Principle of
Varma,
AC
operation
“Thyristor
Transmission
24
V-I
10 ,
Based
System and its
410-417
Characteristics
FACTS
importance for
25
Introduction to
10,
Controller
FACTS
Unified Power
444
for
Controllers
Flow Controller
26
27
(UPFC)
Introduction to
Unified Power
Flow Controller
(IPFC)
Basic operating
principles and
control structure
of UPFC
Introduction to
sub synchronous
resonance
Electrical
Transmissio
n Systems”,
Wiley
Interscience
Publications
,
2002
10 ,
444-448