Power Quality (eBook)

Professor Bhim Singh has worked at the IIT Delhi Department of Electrical Engineering since 1997. He has 30 years' experience in research, consulting and teaching, has organized more than 40 short term courses and workshops, and has delivered more than 100 invited specialized lectures. He has chaired many international and national conferences, including the IEEE International Conferences on Power Electronics, Drives and Energy Systems in 2006. Professor Singh holds one US and one Indian Patent and has filed nine Indian patents. He is a Fellow of many engineering institutions including the Indian National Academy of Engineering and the Indian Academy of Sciences. Professor Ambrish Chandra became a Professor in Electrical Engineering Department at ETS in 1999. His main research interest areas are: power quality, active filters, static reactive power compensation, FACTS and control & integration of renewable energy resources. Professor Chandra is a Fellow of many engineering institutions including IEEE, IET (UK), IE (India) as well as a Life Member of the Indian Society for Technical Education (ISTE). Professor Kamal Al-Haddad has been a Professor within ETS' Electrical Engineering Department since 1990. His research interest areas include: high efficient static power converters, harmonics & reactive power control using hybrid filters, switch mode & resonant converters, the development of prototypes for various industrial applications in electric traction, and power supply for drives & telecommunication. Professor Al-Haddad is an IEEE Fellow, a Canadian Academy of Engineering Fellow and life member of the Circle of Excellence of the University of Quebec. Presently he is IEEE Industrial Electronics society President Elect.

1.1 Introduction

1.2 State of Art on Power Quality

1.3 Classification of Power Quality Problems

1.4 Causes of Power Quality Problems

1.5 Effects of Power Quality Problems on Users

1.6 Classification of Mitigation Techniques of Power Quality Problems

1.7 Literature and Resource Material on Power Quality

1.8 Summary

1.9 Review Questions

1.10 References

2.1 Introduction

2.2 State of the Art on Power Quality Standards and Monitoring

2.3 Power Quality Terminologies

2.4 Power Quality Definitions

2.5 Power Quality Standards

2.6 Power Quality Monitoring

2.7 Numerical Examples

2.8 Summary

2.9 Review Questions

2.10 Numerical Problems

2.11 Computer Simulation Based Problems

2.12 References

3.1 Introduction

3.2 State of the Art on Passive Shunt and Series Compensators

3.3 Classification of Passive Shunt and Series Compensators

3.4 Principle of Operation of Passive Shunt and Series Compensators

3.5 Analysis and Design of Passive Shunt and Series Compensators

3.6 Modelling, Simulation and Performance of Passive Shunt and Series Compensators

3.7 Numerical Examples

3.8 Summary

3.9 Review Questions

3.10 Numerical Problems

3.11 Computer Simulation Based Problems

3.12 References

4.1 Introduction

4.2 State of the Art on DSTATCOM

4.3 Classification of DSTATCOM

4.4 Principle of Operation and Control of DSTATCOM

4.5 Analysis and Design of DSTATCOM

4.6 Modeling, Simulation and Performance of DSTATCOM

4.7 Numerical Examples

4.8 Summary

4.9 Review Questions

4.10 Numerical Problems

4.11 Computer Simulation Based Problems

4.12 References

5.1 Introduction

5.2 State of Art on Active Series Compensators

5.3 Classification of Active Series Compensators

5.4 Principle of Operation and Control of Active Series Compensators

5.5 Analysis and Design of Active Series Compensators

5.6 Modeling, Simulation and Performance of Active Series Compensators

5.7 Numerical Examples

5.8 Summary

5.9 Review Questions

5.10 Numerical Problems

5.11 Computer Simulation Based Problems

5.12 References

6.1 Introduction

6.2 State of Art on Unified Power Quality Compensators

6.3 Classification of Unified Power Quality Compensators

6.4 Principle of Operation and Control of Unified Power Quality Compensators

6.5 Analysis and Design of Unified Power Quality Compensators

6.6 Modeling, Simulation and Performance of Unified Power Quality Compensators

6.7 Numerical Examples

6.8 Summary

6.9 Review Questions

6.10 Numerical Problems

6.11 Computer Simulation Based Problems

6.12 References

7.1 Introduction

7.2 State of Art of Nonlinear Loads

7.3 Classification of Nonlinear Loads

7.4 Power Quality Problems Caused by Nonlinear Loads

7.5 Analysis of Nonlinear Loads

7.6 Modeling, Simulation and Performance of Nonlinear Loads

7.7 Numerical Examples

7.8 Summary

7.9 Review Questions

7.10 Numerical Problems

7.11 Computer Simulation Based Problems

7.12 References

8.1 Introduction

8.2 State of Art on Passive Power Filters

8.3 Classification of Passive Power Filters

8.4 Principle of Operation of Passive Power Filters

8.5 Analysis and Design of Passive Power Filters

8.6 Modeling, Simulation and Performance of Passive Power Filters

8.7 Limitations of Passive Filters

8.8 Parallel Resonance of Passive Filters with Supply System

8.9 Numerical Examples

8.10 Summary

8.11 Review Questions

8.12 Numerical Problems

8.13 Computer Simulation Based Problems

8.14 References

9.1 Introduction

9.2 State of Art on Shunt Active Power Filters

9.3 Classification of Shunt Active Power Filters

9.4 Principle of Operation and Control of Shunt Active Power Filters

9.5 Analysis and Design of Shunt Active Power Filters

9.6 Modeling, Simulation and Performance of Shunt Active Power Filters

9.7 Numerical Examples

9.8 Summary

9.9 Review Questions

9.10 Numerical Problems

9.11 Computer Simulation Based Problems

9.12 References

10.1 Introduction

10.2 State of Art on Series Active Power Filters

10.3 Classification of Series Active Power Filters

10.4 Principle of Operation and Control of Series Active Power Filters

10.5 Analysis and Design of Series Active Power Filters

10.6 Modeling, Simulation and Performance of Series Active Power Filters

10.7 Numerical Examples

10.8 Summary

10.9 Review Questions

10.10 Numerical Problems

10.11 Computer Simulation Based Problems

10.12 References

11.1 Introduction

11.2 State of Art on Hybrid Power Filters

11.3 Classification of Hybrid Power Filters

11.4 Principle of Operation and Control of Hybrid Power Filters

11.5 Analysis and Design of Hybrid Power Filters

11.6 Modeling, Simulation and Performance of Hybrid Power Filters

11.7 Numerical Examples

11.8 Summary

11.9 Review Questions

11.10 Numerical Problems

11.11 Computer Simulation Based Problems

11.12 References