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SYLLABUS FOR POWER SYSTEM DYNAMICS AND CONTROL, Schemes and Mind Maps of Electrical Engineering

G.L.A. UniversityElectrical Engineering

SYLLABUS FOR POWER SYSTEM DYNAMICS AND CONTROL

Typology: Schemes and Mind Maps

2017/2018

Uploaded on 01/22/2018

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EE6202: Power System Dynamics and Control
Pre-requisite: Nil
Total hours: 42 Hrs
Module1: (11 hours)
Generation Control Loops . AVR Loop . Performance And Response . Automatic Generation Control of Single
Area And Multi Area Systems . Static And Dynamic Response Of AGC Loops . Economic Dispatch And AGC, AGC
in a Deregulated Environment, Recent advances in AGC
Module 2: (11 hours)
Transient Stability Problem . Modeling Of Synchronous Machine, Loads, Network, Excitation Systems, Turbine
And Governing Systems, FACTS and HVDC Systems, Trapezoidal Rule Of Numerical Integration Technique For
Transient Stability Analysis, Simultaneous Implicit Approach for Transient Stability Analysis of Multi -machine
Systems, Data For Transient Stability Studies . Transient Stability Enhancement Methods.
Module 3: (11 hours)
Low Frequency Oscillations . Power System Model For Low Frequency Oscillation Studies, Eigen value Analysis,
Improvement Of System Damping With Supplementary Excitation Control, Standard models for PSS
representation- Introduction To Sub Synchronous Resonance And Countermeasures, IEEE Benchmark models
for SSR studies
Module 4: (9 hours)
Voltage Stability Problem . Real And Reactive Power Flow In Long Transmission Lines . Effect Of ULTC And Load
Characteristics On Voltage Stability . Voltage Stability Limit . Voltage Stability Assessment Using PV Curves .
System Modelling-Static and Dynamic Analysis-Voltage Collapse Proximity Indices . Voltage Stability
Improvement Methods.
References
1. P. Kundur, .Power System Stability And Control., McGraw Hill, New York, 1994.
2. A.J. Wood, B.F. Wollenberg, .Power Generation, Operation And Control., John Wiley And Sons, New York,
1984, 2nd Edition: 1996.
3.O.I. Elgard, .Electric Energy System Theory: An Introduction., II Edition, McGraw Hill, New York, 1982.
4. K.R. Padiyar, .Power System Dynamics,Stability And Control., Interline Publishing (P) Ltd., Bangalore, 1999
5. M A Pai, D P Sen Gupta, K R Padiyar, “Small Signal Analysis of Power Systems”, Narosa Series in Power and
Energy Systems, 2004
6. Leonard L Grigsby, Power Systems, Electrical Power Engineering Handbook, CRC Press, New York, 2007.
7. C. Van Custem, T. Vournas, .Voltage Stability Of Electric Power Systems., Rlever Academic Press (U.K.), 1999.
8. Yao-Nan-Yu, .Electric Power System Dynamics. Academic Press, 1983
9. J. Arrilaga, C.P. Arnold, B.J. Harker, .Computer Modeling Of Electrical Power Systems., Wiley, New York,
1983.
10. I.J. Nagrath, O.P. Kothari, .Power System Engineering., Tata McGraw Hill Publishing Co. Ltd., New Delhi, 1994.
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Download SYLLABUS FOR POWER SYSTEM DYNAMICS AND CONTROL and more Schemes and Mind Maps Electrical Engineering in PDF only on Docsity!

EE6202: Power System Dynamics and Control

Pre-requisite: Nil

Total hours: 42 Hrs

Module1: (11 hours) Generation Control Loops. AVR Loop. Performance And Response. Automatic Generation Control of Single Area And Multi Area Systems. Static And Dynamic Response Of AGC Loops. Economic Dispatch And AGC, AGC in a Deregulated Environment, Recent advances in AGC Module 2: ( 11 hours) Transient Stability Problem. Modeling Of Synchronous Machine, Loads, Network, Excitation Systems, Turbine And Governing Systems, FACTS and HVDC Systems, Trapezoidal Rule Of Numerical Integration Technique For Transient Stability Analysis, Simultaneous Implicit Approach for Transient Stability Analysis of Multi-machine Systems, Data For Transient Stability Studies. Transient Stability Enhancement Methods. Module 3: (11 hours) Low Frequency Oscillations. Power System Model For Low Frequency Oscillation Studies, Eigen value Analysis, Improvement Of System Damping With Supplementary Excitation Control, Standard models for PSS representation- Introduction To Sub Synchronous Resonance And Countermeasures, IEEE Benchmark models for SSR studies Module 4: (9 hours) Voltage Stability Problem. Real And Reactive Power Flow In Long Transmission Lines. Effect Of ULTC And Load Characteristics On Voltage Stability. Voltage Stability Limit. Voltage Stability Assessment Using PV Curves. System Modelling-Static and Dynamic Analysis-Voltage Collapse Proximity Indices. Voltage Stability Improvement Methods.

References

  1. P. Kundur, .Power System Stability And Control., McGraw Hill, New York, 1994.
  2. A.J. Wood, B.F. Wollenberg, .Power Generation, Operation And Control., John Wiley And Sons, New York, 1984, 2nd Edition: 1996. 3.O.I. Elgard, .Electric Energy System Theory: An Introduction., II Edition, McGraw Hill, New York, 1982.
  3. K.R. Padiyar, .Power System Dynamics,Stability And Control., Interline Publishing (P) Ltd., Bangalore, 1999
  4. M A Pai, D P Sen Gupta, K R Padiyar, “Small Signal Analysis of Power Systems”, Narosa Series in Power and Energy Systems, 2004
  5. Leonard L Grigsby, “Power Systems”, Electrical Power Engineering Handbook, CRC Press, New York, 2007.
  6. C. Van Custem, T. Vournas, .Voltage Stability Of Electric Power Systems., Rlever Academic Press (U.K.), 1999.
  7. Yao-Nan-Yu, .Electric Power System Dynamics. Academic Press, 198 3
  8. J. Arrilaga, C.P. Arnold, B.J. Harker, .Computer Modeling Of Electrical Power Systems., Wiley, New York,
  10. I.J. Nagrath, O.P. Kothari, .Power System Engineering., Tata McGraw Hill Publishing Co. Ltd., New Delhi, 1994.

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