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Partial Discharges (PD) : Detection, Identification and Localization
Pattanadech, Norasage
Haller, Rainer
Kornhuber, Stefan
Muhr, Michael
2023
Details
Autor(en) / Beteiligte
Pattanadech, Norasage
Haller, Rainer
Kornhuber, Stefan
Muhr, Michael
Titel
Partial Discharges (PD) : Detection, Identification and Localization
Ort / Verlag
Newark : John Wiley & Sons, Incorporated,
Erscheinungsjahr
2023
Link zum Volltext
Wiley Online Library - AutoHoldings Books
Beschreibungen/Notizen
Cover -- Title Page -- Copyright Page -- Contents -- Author Biographies -- Foreword -- Symbols and Abbreviations -- Chapter 1 Introduction -- 1.1 Overview -- 1.2 Acknowledgments -- 1.3 Users -- Chapter 2 Physical Behavior of Partial Discharges -- 2.1 Introduction -- 2.2 External Discharges -- 2.3 Internal Discharges -- 2.3.1 Discharges in Liquid Insulation -- 2.3.2 Discharges in Solid Insulation -- 2.4 Gliding Discharges -- 2.5 PD Quantities -- References -- Chapter 3 Modeling of PD Behavior -- 3.1 Introduction -- 3.2 Network-Based Model -- 3.3 Field-Based Model -- 3.3.1 Stages of PD Behavior Modeling for DC Conditions -- References -- Chapter 4 Measurement of Partial Discharges -- 4.1 Introduction -- 4.2 Signal Properties -- 4.2.1 Device Under Test -- 4.2.2 High Voltage Circuit -- 4.3 Coupling Methods -- 4.3.1 Capacitive Coupling with Measuring Impedance -- 4.3.2 Inductive Coupling with High-Frequency Current Transformer -- 4.4 Signal Processing -- 4.4.1 Full Analog Processing -- 4.4.2 Semi-Digital Processing -- 4.4.3 Full Digital Processing -- 4.5 Measurement Principles -- 4.5.1 Narrow-Band Measurement -- 4.5.2 Wide-Band Measurement -- 4.5.3 Time Domain Integration -- 4.5.4 Radio Interference Voltage (RIV) Measurement -- 4.5.5 Synchronous Measurement for Multichannel Application -- 4.6 Noise Suppression and Reduction -- 4.6.1 Introduction -- 4.6.2 Noise Sources -- 4.6.3 Denoising Methods -- 4.7 Visualization and Interpretation of PD Events -- 4.7.1 Introduction -- 4.7.2 Classical Methods -- 4.7.3 Advanced Methods -- 4.7.4 Pulse Sequence Analysis -- 4.8 Artificial Intelligence and Expert Systems -- 4.8.1 Introduction -- 4.8.2 Artificial Intelligence and Artificial Neural Networks -- 4.8.3 Expert System -- 4.9 Calibration -- 4.9.1 Calibration of PD Measuring Circuit -- 4.9.2 Performance Test of PD Calibrators -- References.
Chapter 5 Electromagnetic Methods for PD Detection -- 5.1 Introduction -- 5.2 PD Measurement by HF and VHF Sensors -- 5.2.1 PD Measurement by CC -- 5.2.2 PD Measurement by Inductive Couplers -- 5.2.3 PD Measurement by DCS -- 5.3 PD Measurement by UHF Method -- 5.3.1 Theory -- 5.3.2 UHF Sensors -- 5.3.3 UHF PD Measurement System -- 5.3.4 Application of UHF PD Measurement -- References -- Chapter 6 Non-electrical Methods for PD Measurement -- 6.1 Introduction -- 6.2 Optical PD Measurement -- 6.2.1 Theory -- 6.2.2 Principle for Optical PD Measurement Technique -- 6.2.3 Application of Optical PD Measurement -- 6.3 Acoustic Emission PD Measurement -- 6.3.1 Theory -- 6.3.2 Acoustic Receivers and Acoustic Sensors -- 6.3.3 Acoustic Noises in AE PD Measurement -- 6.3.4 General Idea for AE PD Measurement -- 6.3.5 Application of Acoustic PD Measurement for High-Voltage Apparatus -- 6.4 Chemical Byproducts -- 6.4.1 Theory -- 6.4.2 Dissolved Gas Analysis for Liquid Insulation -- 6.4.3 Decomposition Gas Analysis -- 6.4.4 Ozone Measurement and Analysis for Air-Cooled Hydrogenerators -- References -- Chapter 7 PD Localization -- 7.1 Introduction -- 7.2 The Complexity of PD Localization -- 7.3 Classification of PD Localization -- 7.3.1 PD Localization for the Internal Insulation -- 7.3.2 PD Localization for the External Insulation -- 7.4 PD Localization Techniques for the Internal Insulation -- 7.4.1 Pulse Time Arrival Method -- 7.4.2 Auscultatory Method -- 7.4.3 Triangulation Method -- 7.4.4 Bouncing Particle Localization Method -- 7.5 PD Localization Techniques for the External Insulation -- 7.5.1 Application of the Corona Camera -- 7.5.2 Application of the Airborne Acoustic Probe -- References -- Chapter 8 PD Measurement Under Direct and Impulse Voltage Stress Conditions -- 8.1 Introduction -- 8.2 PD Measurement at Direct Voltage Conditions.
8.3 PD Measurement at Impulse Voltage Conditions -- 8.3.1 PD Measurement at Classical Impulse Voltage Conditions -- 8.3.2 PD Measurement at Repetitive Pulse Voltage Conditions -- References -- Chapter 9 Monitoring of PD Behavior -- 9.1 Introduction -- 9.2 PD Monitoring -- 9.2.1 Off-Line and On-Line PD Measurement -- 9.2.2 PD Monitoring System -- 9.3 Application of PD Monitoring -- 9.3.1 Application of PD Monitoring for the Existing High-Voltage Equipment -- 9.3.2 Application of PD Monitoring for the New Equipment Supporting Smart Grid -- 9.4 Challenges for PD Monitoring in Future -- References -- Chapter 10 Evaluation of PDs -- 10.1 Introduction -- 10.2 In-House and On-Site PD Testing -- 10.2.1 In-House PD Testing -- 10.2.2 On-Site PD Testing -- 10.3 How to Evaluate PD Test Results -- 10.4 Effect of PD on Insulation Degradation -- 10.5 Integrity of PD Measurement -- 10.6 PD Quantity -- 10.6.1 Discharge Magnitude -- 10.6.2 PDIV, PDEV, and Other PD Quantities -- 10.6.3 PD Quantity as Criteria for Evaluation of Insulation Condition -- 10.7 PD Patterns -- 10.8 PD Signal in Time Domain and Frequency Domain Analysis -- 10.9 PD Source as Criteria for Evaluation of Insulation Condition -- 10.10 Noise Patterns and Noise Reduction -- 10.10.1 Noise Patterns -- 10.10.2 Noise Reduction -- 10.11 Effective Evaluation of PD Phenomena -- References -- Chapter 11 Standards -- 11.1 Standards -- 11.2 Technical Brochures -- 11.3 Books -- References -- Chapter 12 Conclusions and Outlook -- Index -- EULA.
Description based on publisher supplied metadata and other sources.
Sprache
–
Identifikatoren
ISBN: 1-119-56841-2, 1-119-56842-0, 1-119-56843-9
Titel-ID: 9925172347406463
Format
1 online resource (339 pages)