FULTY OF ENGINEERING AND TECHNOLOGY DEPARTMENT OF EEE COURSE PLAN FOR B.TECH (EEE) Course Code : EE0460 Course Title : Flexible Systems Semester : VIII Course Time : DEC 20-to May 204 Location : S.R.M.E.C Course timings: Class HR Timings Day 4.25-2.5 AM Day 2 08.45-09.25 AM Day 2 09.25-0.25 AM Faculty Details S.No Name of Staff Office Office hour Mail id. S.VIDYASAGAR ESB0 2.0 -.0PM vidyasagar.s@ktr.srmuniv.ac.in Required Text Books:. Narain G. Hingorani and Laszlo Gyugyi Understanding Concepts and Technology of Flexible Systems Standard Publishers New Delhi 200. 2. R. Mohan Systems
. Narain G. Hingorani Flexible IEEE Spectrum April 99 40-45 4. Narain G. Hingorani High Power Electronics in Flexible IEEE Power Engineering Review 998 5. Elinar V. Larsen Juan J Sanchez Gasca Joe H. Chow Concepts design of controllers to damp power swings IEEE Transactions on Power Systems Vol. 0 2 May 995 Web Resources:. http://eeekits.blogspot.in/20/09/flexible-ac-transmission-system-by-pal.html 2. http://www.energy.siemens.com/hq/en/power-transmission/facts/. http://www.abb.com/facts 4. http://www.alstom.com/grid/products-and-services/engineered-energysolutions/flexible- ac-transmission-system/ 5. http://www.energy.ca.gov/reports/-0-0_600-00-07.pdf 6. http://www.meppi.com/service/pses/documents/facts%20applications.pdf 7. Concepts of - www.ieeexplore.ieee.org/ Prerequisite : Nil INSTRUCTIONAL OBJECTIVES: on flexible controllers. To understand various controllers operation on systems.
Assessment Details Cycle Test I: 0 Marks Surprise Test: 05 Marks Cycle Test II: 0 Marks Model Exam: 20 Marks Attendance: 05 Marks Total : 50 Marks Test Schedule S. No DATE TEST TOPICS DURATION 05.02.204 CYCLE TEST-I UNIT-I hr 0 minutes 2 05.0.204 CYCLE TEST-II UNIT-II & III hr 0 minutes 5.04.204 MODEL EXAM ALL 5 UNITS hrs s: Student who have successfully completed this course At end of course students will be able to: on flexible controllers. To understand various controllers operation on systems. outcome a).an ability to apply of. c). An ability to design a Compensators within realistic constraints. e).an ability to identify mulate and solve real network problems with controllers h).the broad education necessary to understand impact of engineering solutions in a l b l i
EE 0460 FLEXIBLE TRANSMISSION SYSTEMS PURPOSE To enable students gain a fair on concepts and technology of flexible transmission systems. INSTRUCTIONAL OBJECTIVES At end of course students will be able to:. To understand need 2. To learn shunt and series compensation techniques. To learn about controlled voltage and Phase angle regulator 4. To learn concept of unified power flow controller INTRODUCTION TO Network Necessity Power Flow in System relative importance of controllable parameter opportunities possible benefits STATIC VAR COMPENSATION Need 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 TSSC & TCSC STATIC VOLTAGE PHASE ANGLE REGULATOR s of voltage & phase angle regulators approaches to Thyristor Controlled Voltage & Phase Angle Regulator EMERGING CONTROLLER STATCOM Introduction to Unified Power Flow (UPFC) & Interline Power Flow (IPFC) basic operating principles UPFC introduction to sub synchronous Resonance
TEXT BOOKS. Narain G. Hingorani & Laszlo Gyugyi Understanding Concepts & Technology of Flexible Systems Standard Publishers New Delhi 200. 2. Mohan Mathur R. & Thyristor Systems REFERENCE BOOKS. Miller. T.J.E. Reactive Power Control in Electric System John & Sons 997. 2. Dubey G.K. Thyristorized Power New Age international (P) Ltd.New Delhi 200.. Narain G. Hingorani Flexible IEEE Spectrum April 99 pp 40 45. 4. Narain G. Hingorani High Power Electronics in Flexible IEEE Power Engineering Review 998. 5. Elinar V. Larsen Juan J Sanchez Gasca Joe H. Chow Concepts design of controllers to damp power swings IEEE Transactions on Power Systems Vol. 0 2 May 995.
UNIT I INTRODUCTION TO Network Necessity Power Flow in System relative importance of controllable parameter opportunities possible benefits Text book Chap.no Introduction 2 Network Necessity Power Flow in System 4 Relative importance of controllable parameter 5 Opportunities 6 Possible benefits Technology UNIT II STATIC VAR COMPENSATION -2-2 6-7 6-7 8-2 8-2 Cycle test surprise test and model exam. Need 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 7 Need compensation introduction to shunt and series compensation 8 s of shunt and series compensation Text book Systems Chap.no 2 7-5 227 Cycle 2 test surprise -4 test and model exam
9 Configuration and operating characteristics 0 Thyristor Controlled Reactor (TCR) Operating characteristics of Thyristor Controlled Reactor (TCR) 2 Thyristor Switched Capacitor (TSC) Operating characteristics of Thyristor Switched Capacitor (TSC) 4 Comparison of TCRTSC UNIT III SERIES COMPENSATION 2 6-9 47-52 52-6 7-78 8 89-9 Variable Impedance Type Series Compensation: Thyristor Switched Series Capacitor (TSSC) Thyristor Controlled Series Capacitor (TCSC) Basic operating control schemes TSSC & TCSC 5 Variable Impedance Type Series Compensation Text book 6 TSSC 7 Chap.no 7 277-278 277-278 7 8 TCSC Basic operating control schemes TSSC&TCSC 7 279-28 7 28-284 Cycle test II model exam
UNIT IV STATIC VOLTAGE PHASE ANGLE REGULATOR s of voltage & phase angle regulators approaches to Thyristor Controlled Voltage & Phase Angle Regulator 9 s of voltage and phase angle regulators 20 TCVR Model and characteristics 2 Approaches to Thyristor Controlled Voltage and Phase Angle Regulator 22 TCPAR Model Text book Chap.no Cycle test 2 model exam UNIT V EMERGING CONTROLLER STATCOM Introduction to Unified Power Flow (UPFC) & Interline Power Flow (IPFC) basic operating principles UPFC introduction to sub synchronous resonance Text book Chap.no 2 STATCOM Introduction Circuit model Principle of operation 24 V-I Characteristics 25 Introduction to Unified Power Flow 0 4 0 40-47 0 444
(UPFC) 26 Introduction to Unified Power Flow (IPFC) 27 Basic operating principles and control structure of UPFC Introduction to sub synchronous resonance 0 444-448