Items related to Insulators for Icing and Polluted Environments
Synopsis
Learn to correct icing and pollution problems in electrical line insulation
Written by prominent experts in the field, this book takes an in-depth look at the issues of electrical insulators for icing and polluted environments. It shows:
-
Engineers and environmental specialists how to carry out appropriate insulator contamination measurements, understand how these readings change with time and weather, and work out how the readings compare with the upper limits set by insulator dimensions in their existing stations
-
Design engineers how to assess the likely maximum pollution and icing limits at a substation or along an overhead line, and then select insulators that have appropriate withstand margins
-
Regulators why modest ice accretion at a moderate 0oC temperature on one occasion can qualify as a major reliability event day, while many similar days pass each winter without power system problems
-
Educators why the ice surface flashover is well behaved compared to the conventional pollution flashover, making it much more suitable for demonstrations, modeling, and analysis
The book is complemented with case studies and design equations to help readers identify the most appropriate insulators, bushings, and maintenance plans for their local conditions. Additionally, readers may download supplemental materials supporting evaluation of local climate and contamination.
Insulators for Icing and Polluted Environments is indispensable reading for any professional who needs reliable electrical supply from networks exposed to sources of wetting and pollution. It also serves as an excellent introduction to the subjects of high-voltage surface flashover, environmental electrochemistry, and insulation coordination for researchers, professors, and students.
"synopsis" may belong to another edition of this title.
From the Inside Flap
PREFACE.
ACKNOWLEDGMENTS.
1. INTRODUCTION.
1.1. Scope and Objectives.
1.2. Power System Reliability.
1.3. The Insulation Coordination Process: What Is Involved?
1.4. Organization of the Book.
1.5. Precis.
References.
2. INSULATORS FOR ELECTRIC POWER SYSTEMS.
2.1. Terminology for Insulators.
2.2. Classification of Insulators.
2.3. Insulator Construction.
2.4. Electrical Stresses on Insulators.
2.5. Environmental Stresses on Insulators.
2.6. Mechanical Stresses.
2.7. Precis.
References.
3. ENVIRONMENTAL EXPOSURE OF INSULATORS.
3.1. Pollution: What It Is.
3.2. Pollution Deposits on Power System Insulators.
3.3. Nonsoluble Electrically Inert Deposits.
3.4. Soluble Electrically Conductive Pollution.
3.5. Effects of Temperature on Electrical Conductivity.
3.6. Conversion to Equivalent Salt Deposit Density.
3.7. Self-Wetting of Contaminated Surfaces.
3.8. Surface Wetting by Fog Accretion.
3.9. Surface Wetting by Natural Precipitation.
3.10. Surface Wetting by Artificial Precipitation.
3.11. Precis.
References.
4. INSULATOR ELECTRICAL PERFORMANCE IN POLLUTION CONDITIONS.
4.1. Terminology for Electrical Performance in Pollution Conditions.
4.2. Air Gap Breakdown.
4.3. Breakdown of Polluted Insulators.
4.4. Outdoor Exposure Test Methods.
4.5. Indoor Test Methods for Pollution Flashovers.
4.6. Salt-Fog Test.
4.7. Clean-Fog Test Method.
4.8. Other Test Procedures.
4.9. Salt-Fog Test Results.
4.11. Effects of Insulator Parameters.
4.12. Effects of Nonsoluble Deposit Density.
4.13. Pressure Effects on Contamination Tests.
4.14. Temperature Effects on Pollution Flashover.
4.15. Precis.
References.
5. CONTAMINATION FLASHOVER MODELS.
5.1. General Classification of Partial Discharges.
5.1.1. Discharges in the Presence of an Insulating Surface.
5.2. Dry-Band Arcing on Contaminated Surfaces.
5.3. Electrical Arcing on Wet, Contaminated Surfaces.
5.4. Residual Resistance of Polluted Layer.
5.5. dc Pollution Flashover Modeling.
5.6. ac Pollution Flashover Modeling.
5.7. Theoretical Modeling for Cold-Fog Flashover.
5.8. Future Directions for Pollution Flashover Modeling.
5.9. Precis.
References.
6. MITIGATION OPTIONS FOR IMPROVED PERFORMANCE IN POLLUTION CONDITIONS.
6.1. Monitoring for Maintenance.
6.2. Cleaning of Insulators.
6.3. Coating of Insulators.
6.4. Adding Accessories.
6.5. Adding More Insulators.
6.6. Changing to Improved Designs.
6.7. Changing to Semiconducting Glaze.
6.8. Changing to Polymer Insulators.
6.9. Precis.
References.
7. ICING FLASHOVERS.
7.1. Terminology for Ice.
7.2. Ice Morphology.
7.3. Electrical Characteristics of Ice.
7.4. Ice Flashover Experience.
7.5. Ice Flashover Processes.
7.6. Icing Test Methods.
7.7. Ice Flashover Test Results.
7.8. Empirical Models for Icing Flashovers.
7.9. Mathematical Modeling of Flashover Process on Ice-Covered Insulators.
7.10. Environmental Corrections for Ice Surfaces.
7.11. Future Directions for Icing Flashover Modeling.
7.12. Precis.
References.
8. SNOW FLASHOVERS.
8.1. Terminology for Snow.
8.2. Snow Morphology.
8.3. Snow Electrical Characteristics.
8.4. Snow Flashover Experience.
8.5. Snow Flashover Process and Test Methods.
8.6. Snow Flashover Test Results.
8.7 Empirical Model for Snow Flashover.
8.8. Mathematical Modeling of Flashover Process on Snow-Covered Insulators.
8.9. Environmental Corrections for Snow Flashover.
8.10. Case Studies of Snow Flashover.
8.11. Precis.
References.
9. MITIGATION OPTIONS FOR IMPROVED PERFORMANCE IN ICE AND SNOW CONDITIONS.
9.1. Options for Mitigating Very Light and Light Icing.
9.2. Options for Mitigating Moderate Icing.
9.3. Options for Mitigating Heavy Icing.
9.4. Options for Mitigating Snow and Rime.
9.5. Alternatives for Mitigating Any Icing.
9.6. Precis.
References.
10. INSULATION COORDINATION FOR ICING AND POLLUTED ENVIRONMENTS.
10.1. The Insulation Coordination Process.
10.2. Deterministic and Probabilistic Methods.
10.3. IEEE 1313.2 Design Approach for Contamination.
10.4. IEC 60815 Design Approach for Contamination.
10.5. CIGRE Design Approach for Contamination.
10.6. Characteristics of Winter Pollution.
10.7. Winter Fog Events.
10.8. Freezing Rain and Freezing Drizzle Events.
10.9. Snow Climatology.
10.10. Deterministic Coordination for Leakage Distance.
10.11. Probabilistic Coordination for Leakage Distance.
10.12. Deterministic Coordination for Dry Arc Distance.
10.13. Probabilistic Coordination for Dry Arc Distance.
10.14. Case Studies.
10.15. Precis.
References.
APPENDIX A: MEASUREMENT OF INSULATOR CONTAMINATION LEVEL.
APPENDIX B: STANDARD CORRECTIONS FOR HUMIDITY, TEMPERATURE, AND PRESSURE.
APPENDIX C: TERMS RELATED TO ELECTRICAL IMPULSES.
INDEX.
About the Author
Masoud Farzaneh, PhD, is an internationally renowned expert in the field of power engineering. He is a Fellow of the IEEE, the IET, and the Engineering Institute of Canada. Prof. Farzaneh is currently Director of the International Center on Icing and Power Network Engineering (CenGivre), as well as Chairholder of the NSERC/Hydro-Quebec Industrial Chair on Atmospheric Icing of Power Network Equipment (CIGELE) and of the Canada Research Chair on Engineering of Power Network Atmospheric Icing (INGIVRE) at University of Québec in Chicoutimi (UQAC), Canada. He is Associate Editor of IEEE Transactions on Dielectrics and Electrical Insulation, Chair of IEEE DEIS Outdoor Insulation Committee, and Convenor of CIGRé WG B2.29 on de-icing and anti-icing of overhead lines.
William A. Chisholm, PhD, is an IEEE Fellow and an internationally acknowledged expert in lightning protection, electrical insulation, and thermal rating of power systems. Dr. Chisholm is an Associate at Kinectrics in Toronto, Canada, and an Adjunct Professor at the University of Québec at Chicoutimi. He is Secretary of the PES Transmission and Distribution Committee.
"About this title" may belong to another edition of this title.
- PublisherWiley-IEEE Press
- Publication date2009
- ISBN 10 0470282347
- ISBN 13 9780470282342
- BindingHardcover
- LanguageEnglish
- Edition number1
- Number of pages706
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Hardcover. Condition: new. Hardcover. Learn to correct icing and pollution problems in electrical line insulation Written by prominent experts in the field, this book takes an in-depth look at the issues of electrical insulators for icing and polluted environments. It shows: Engineers and environmental specialists how to carry out appropriate insulator contamination measurements, understand how these readings change with time and weather, and work out how the readings compare with the upper limits set by insulator dimensions in their existing stations Design engineers how to assess the likely maximum pollution and icing limits at a substation or along an overhead line, and then select insulators that have appropriate withstand margins Regulators why modest ice accretion at a moderate 0oC temperature on one occasion can qualify as a major reliability event day, while many similar days pass each winter without power system problems Educators why the ice surface flashover is well behaved compared to the conventional pollution flashover, making it much more suitable for demonstrations, modeling, and analysis The book is complemented with case studies and design equations to help readers identify the most appropriate insulators, bushings, and maintenance plans for their local conditions. Additionally, readers may download supplemental materials supporting evaluation of local climate and contamination. Insulators for Icing and Polluted Environments is indispensable reading for any professional who needs reliable electrical supply from networks exposed to sources of wetting and pollution. It also serves as an excellent introduction to the subjects of high-voltage surface flashover, environmental electrochemistry, and insulation coordination for researchers, professors, and students. With the widespread use of EHV equipment in winter environments, winter flashovers at air temperature close to melting point have become a critical design constraint. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Seller Inventory # 9780470282342
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