Electromagnetic Compatibility in Power Systems -

Electromagnetic Compatibility in Power Systems (eBook)

Francesco Lattarulo (Herausgeber)

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2011 | 1. Auflage
328 Seiten
Elsevier Science (Verlag)
978-0-08-046761-0 (ISBN)
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A large amount of natural or artificially produced physical phenomena are exploited for practical applications, even though several of them give rise to unpleasant consequences. These ultimately manifest themselves under form of malfunction or definitive failure of components and systems, or environmental hazard. So far, manifold categories of inadvertent or deliberate sources have been discovered to simultaneously produce useful effects in some ways but adverse ones in others. In particular, responsible for the growing interest in the last decades for Electromagnetic Compatibility (EMC) has been the progressive miniaturisation and sensitivity of electronic components and circuits, often operating in close proximity to relatively powerful sources of electromagnetic interference. Potential authors of books on the subject-matter are fully aware of the fact that planning production of manageable handbooks capable to treat all the EMC case studies of practical and long-lasting interest could result in a questionable and difficult undertaking. Therefore, in addition to textbooks providing a thorough background on basic aspects, thus being well-tailored for students and those which want to get in contact with this discipline, the most can be made to jointly sustain a helpful and practicable publishing activity is to supply specialised monographs or miscellanies of selected topics. Such resources are preferentially addressed to post-graduate students, researchers and designers, often employed in the forefront of research or engaged for remodelling design paradigms. Hence, the prerequisite for such a class of publications should consist in arousing critical sense and promoting new ideas. This is the object of the present book which tries to rather discuss special subjects, or throw out suggestions for reformulating conventional approaches, than to appear as a reference text. A common motivation encouraged the contributors to bringing together a number of accounts of the research that they have undertaken over the late years: willing to fill the important need of covering EMC topics rather proper to transmission and distribution of electric power than, more usually, to Electronics and Telecommunication Systems.

- EMC topics for Power Systems, at last!
- Investigating EMC features of distributed and/or complex systems.
- A broad body of knowledge for specific applications.
- A stimulating support for those which are engaged in the forefront of research and design.
- An example of how breaking ideas should be encouraged and proudly applied.
- A fruitful critique to overcomplicated and unpractical models.
- A comprehensive resource to estimate the important role of EMC at lower frequencies.
A large amount of natural or artificially produced physical phenomena are exploited for practical applications, even though several of them give rise to unpleasant consequences. These ultimately manifest themselves under form of malfunction or definitive failure of components and systems, or environmental hazard. So far, manifold categories of inadvertent or deliberate sources have been discovered to simultaneously produce useful effects in some ways but adverse ones in others. In particular, responsible for the growing interest in the last decades for Electromagnetic Compatibility (EMC) has been the progressive miniaturisation and sensitivity of electronic components and circuits, often operating in close proximity to relatively powerful sources of electromagnetic interference. Potential authors of books on the subject-matter are fully aware of the fact that planning production of manageable handbooks capable to treat all the EMC case studies of practical and long-lasting interest could result in a questionable and difficult undertaking. Therefore, in addition to textbooks providing a thorough background on basic aspects, thus being well-tailored for students and those which want to get in contact with this discipline, the most can be made to jointly sustain a helpful and practicable publishing activity is to supply specialised monographs or miscellanies of selected topics. Such resources are preferentially addressed to post-graduate students, researchers and designers, often employed in the forefront of research or engaged for remodelling design paradigms. Hence, the prerequisite for such a class of publications should consist in arousing critical sense and promoting new ideas. This is the object of Electromagnetic Compatibility in Power Systems, which tries to rather discuss special subjects, or throw out suggestions for reformulating conventional approaches, than to appear as a reference text. A common motivation encouraged the contributors to bringing together a number of accounts of the research that they have undertaken over the late years: willing to fill the important need of covering EMC topics rather proper to transmission and distribution of electric power than, more usually, to Electronics and Telecommunication Systems. - EMC topics for Power Systems, at last!- Investigating EMC features of distributed and/or complex systems- A broad body of knowledge for specific applications- A stimulating support for those which are engaged in the forefront of research and design- An example of how breaking ideas should be encouraged and proudly applied- A fruitful critique to overcomplicated and unpractical models- A comprehensive resource to estimate the important role of EMC at lower frequencies

Cover 1
Copyright page 4
Table of contents 7
Preface 13
CHAPTER 1. A Combined Electrostatic–Electrodynamic Approach to Lightning Pre-Stroke Phenomena and Related EMC Problems 17
1.1 Preliminary Remarks 17
1.2 Thundercloud Electrostatic Modelling 19
1.3 Electric Field at the Plane 21
1.4 On-Axis Electric Field 26
1.5 Pre-Stroke Electrostatics 28
1.6 Pre-Stroke Electrodynamics 35
1.7 Concluding Remarks 38
Appendix A 40
A.1 On-ground field 43
A.2 On-axis field (below the cell bottom) 44
Appendix B 44
Appendix C 48
C.1 Space-charge-free electrostatic solution 48
C.2 Space-charge-free electrodynamic solution 49
C.3 E-field solution including corona 50
Appendix D 53
References 56
CHAPTER 2. A Reasoned Approach to Lightning Electromagnetics and Coupling to Nearby Power Transmission Lines 59
2.1 Introduction 59
2.2 Remarks on the Pre-Stroke and Stroke-in-Progress Phases 62
2.3 Antenna Model 66
2.4 Discussion 69
2.5 Return-Stroke Current 73
2.6 Induced Voltage on a Nearby Line 76
2.7 Concluding Remarks 85
Appendix A 89
Appendix B 90
References 92
CHAPTER 3. Effects of Geomagnetic Storms on Long Distance AC Transmission Systems 95
3.1 Introduction 95
3.2 System Representation 96
3.3 Coordinated Compensation Strategy 100
3.4 Test Results 103
3.5 Conclusions 106
References 106
CHAPTER 4. Evaluation of the AC Interferences between Transmission Lines and Metallic Underground Structures 109
4.1 Introduction 109
4.2 System Representation 113
4.3 Test Results 118
4.4 Conclusions 123
References 123
CHAPTER 5. The Crucial Case of Quasistatic Magnetic Field Penetration into Metallic Enclosures: An Unexplored Model 125
5.1 Introduction 125
5.2 Unloaded Short Aperture 129
5.3 Loaded Short Aperture and Perforated Sheet 136
Appendix A 140
Appendix B 143
Appendix C 145
Appendix D 146
References 147
CHAPTER 6. Diakoptic Approach to EMC Problems Involving the Human Body 149
6.1 Introduction 149
6.2 Diakoptic Approach Applied to ELF Electric Field Exposure of HB 151
6.3 Improved HB Model for ESD Applications 162
6.4 Conclusions 176
Appendix A 177
References 178
CHAPTER 7. New Power Quality Assessment Criteria for Harmonic Disturbances 181
7.1 Introduction about Power Quality 182
7.2 Electromagnetic Compatibility: Standards 187
7.3 Harmonic Distortion Level Monitoring 192
7.4 New Power Quality Assessment Criteria for Supply Systems under Non-Sinusoidal Conditions 195
7.5 Conclusions 204
References 204
CHAPTER 8. Design of Line Front-End Converter Systems under Real Line Conditions 207
8.1 Introduction 207
8.2 Basic Function, Operating Limits and Mathematical Models 210
8.3 Basic Control 214
8.4 Advanced Control Techniques 218
8.5 Design Criteria for PI-Based Current Controller 220
8.6 Design Criteria for DC Voltage Control 231
8.7 Non-Ideal Operating Conditions 235
8.8 Conclusions 239
References 239
CHAPTER 9. Adjoint Network Theory to Analyse the Power Converters with Respect to their Line-side Behaviour 241
9.1 Introduction 241
9.2 VSC Power Converters Connected to the Line 243
9.3 Modelling of the Current Controlled Voltage Source Converter with the “Virtual Circuit” Approach 245
9.4 Sensitivity Analysis in the Frequency Domain 249
9.5 Sensitivity Analysis Based on the Adjoint Circuit: Case Study 252
9.6 Conclusions 259
References 260
CHAPTER 10. Harmonic Load Flow Applications for Industrial Power Systems Design 261
10.1 Introduction 261
10.2 Power System Response to Harmonics 263
10.3 Probabilistic Formulation 269
10.4 Case Study 272
10.5 Passive Harmonic Filters 277
10.6 Minimal Cost Design for Harmonic Reduction 278
10.7 Optimisation Algorithm 280
10.8 Case Study 281
References 282
CHAPTER 11. Shunt Active Filters to Mitigate Harmonic Propagation in Distribution Lines 285
11.1 Introduction 285
11.2 Active Filters 286
11.3 Identification of the Polluting Load 288
11.4 Shunt Active Filters (SAFs) 290
11.5 Optimisation Methods for SAFs 299
11.6 Real-Time Control Implementation 307
11.7 Conclusions 312
References 312
Index 315

Erscheint lt. Verlag 28.7.2011
Sprache englisch
Themenwelt Mathematik / Informatik Informatik
Naturwissenschaften Physik / Astronomie Elektrodynamik
Technik Elektrotechnik / Energietechnik
Technik Maschinenbau
ISBN-10 0-08-046761-X / 008046761X
ISBN-13 978-0-08-046761-0 / 9780080467610
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