- 绝缘气体状态监测与电气设备故障诊断(英文版)/中国科学院大学研究生教材系列
- - 作者：编者:张国强|责编:杨淑玲
  - 出版社：中国电力
  - ISBN：9787523900550
  - 出版日期：2025/06/01
  - 页数：411
- 售价：55.2

内容大纲
本书紧密围绕电力行业技术发展趋势和行业痛点，描述了相关领域的国内外现状和最新技术成果，汇聚了环保绝缘气体研发与工程应用的国内外最新进展，紧跟时代步伐，总结并系统介绍了SF6替代技术最新的科研成果、应用前景、以及国内外技术现状与发展趋势。可以为该领域的科研人员和工程技术人员提供有益借鉴和参考。全书共分12章，重点介绍了SF6气体及其环保替代气体和智能电网中电气设备的新型传感器及在线监测技术，具体内容包括：绪论；高压气体放电研究方法、基本理论、SF6的基本性能；激光诱导击穿光谱技术及其在电力行业的应用；气相色谱法和光声光谱法及其在智能电气设备中的应用；可调谐二极管激光吸收光谱法在化学物质检测中的应用；红外光谱与热成像技术；紫外线光谱学和紫外线照相机，空气绝缘电气设备局部放电诊断的技术；高电压组合电器GIS用电化学气体传感器；化学发光法和紫外吸收法检测放电过程中空气分解物；电光和磁光效应传感器；迈克尔逊和法布里－珀罗干涉仪；声学和超声可视化。
作者介绍
目录
Table of Contents
Preface
1  Introduction
  1.1  Overview of Electrical Equipment
    1.1.1  Primary Equipment
    1.1.2  Secondary Equipment
  1.2  Insulation Design Requirements
    1.2.1  Electrical Requirements
    1.2.2  Physical Limitations
    1.2.3  Working Environment
    1.2.4  Mechanical Requirements
    1.2.5  Thermal Conditions
    1.2.6  Processing
    1.2.7  Reliability
  1.3  Insulation Failures of Electrical Equipment
    1.3.1  Insulation Failures and Their Hazards
    1.3.2  Characterization of Insulation Condition
  1.4  Advanced Sensors and Measurement Instruments in Electric Power Industry
    1.4.1  Electrical and Magnetic Sensors
    1.4.2  Optical, Chemical, Acoustic, and Mechanical Detection
  1.5  Online Monitoring and Condition-Based Maintenance
    1.5.1  The Main Problems with Offline Monitoring
    1.5.2  Online Monitoring
  1.6  Technical Requirements for Online Monitoring Systems
  Bibliography
2  SF6Gas and Its Environmental-Friendly Alternatives
  2.1  Review of Insulating Materials
    2.1.1  Gases
    2.1.2  Vacuum
    2.1.3  Liquids
    2.1.4  Solids
  2.2  SF? and Its Alternatives
    2.2.1  SF?
    2.2.2  Situation and Development of Environmentally Friendly Insulating Gas
  2.3  Insulating and Extinguishing Performance of C?F?N
    2.3.1  Power Frequency and DC Breakdown Characteristics
    2.3.2  Lighting Impulse and Surface Flashover Characteristics
    2.3.3  Arc Extinguishing Characteristics
  2.4  Decomposition Characteristics of C?F?N
    2.4.1  Introduction of Quantum Chemistry Theory
    2.4.2  Decomposition and By-product Formation Mechanism
    2.4.3  Decomposition By-product Measurement for C?F?N
    2.4.4  Fault Decomposition Characteristics of SF? and C?F?N/CO?
    2.4.5  Fault Criteria of C?F?N/CO? Decomposition
  2.5  Compatibility Characteristics of C?F?N and Solid Materials
    2.5.1  Solid Absorbent Materials
    2.5.2  Rubber Sealing Materials
    2.5.3  Epoxy Resin Materials
  2.6  Review Questions
  Bibliography

3  Atomic Emission Spectrometry
  3.1  Introduction
  3.2  Basic Principles
    3.2.1  Atomic Emission Spectroscopy
    3.2.2  Laser-induced breakdown spectroscopy (LIBS)
    3.2.3  The Physics and Chemistry of the Laser Plasma
  3.3  Forming the LIBS Plasma in Gases, Liquids, and on Solids
    3.3.1  Gases
    3.3.2  Liquids
    3.3.3  Particles
    3.3.4  Solids
  3.4  Components for a LIBS Apparatus
    3.4.1  General
    3.4.2  Laser Systems
    3.4.3  Methods of Spectral Resolution
    3.4.4  Detectors
  3.5  Industrial Application of LIBS
    3.5.1  LIBS Detection in Electric Power Grids
    3.5.2  LIBS Application in Thermal Power Plants
    3.5.3  LIBS Application in Nuclear Power Stations
    3.5.4  LIBS Application in Metal Alloys Industries
  3.6  The Lowest Detectable Limit of LIBS
    3.6.1  LIBS Lowest Detectable Limit
    3.6.2  LIBS Typical Suppliers
  3.7  Review Questions
  Bibliography
4  Gas Chromatography & Photoacoustic Spectroscopy
  4.1  Introduction
  4.2  Insulating Liquids
  4.3  Decomposing and Relevant Chemical By-products
  4.4  Importance of Oil Sample Analysis
  4.5  Oil Sampling Guidelines and Industry Practices
  4.6  Interpretation Techniques
    4.6.1  Fault Types
    4.6.2  Techniques that Rely on the Gas Concentrations and Ratios
  4.7  Online Dissolved Gas Analysis by Sensors and Chromatography
    4.7.1  Online Monitoring of Power Transformers
    4.7.2  Online Monitoring of Bushings and Lightning Arrestors
  4.8  Online Dissolved Gas Analysis by Photoacoustic Spectroscopy
    4.8.1  Introduction
    4.8.2  Fundamentals of Photoacoustics
    4.8.3  Photoacoustic Sensing Applications in Smart Grids
  4.9  Typical Instrument Suppliers and the Measurable Scope of PAS
    4.9.1  PAS Typical Suppliers
    4.9.2  The Measurable Scope of PAS
  4.10  Review Questions
  Bibliography
5  Tunable Diode Laser Absorption Spectroscopy
  5.1  Introduction
  5.2  Basic Principles

    5.2.1  Laser Spectroscopy Theory
    5.2.2  Molecular Absorption Spectroscopy
    5.2.3  Beer-Lambert Law
    5.2.4  Spectroscopic Databases
    5.2.5  Unique Advantages of TDLAS
  5.3  Main Components of TDLAS and Relevant Techniques
    5.3.1  Laser Sources of TDLAS
    5.3.2  Laser Systems Signal Processing Techniques
  5.4  Cavity Enhancement Techniques
    5.4.1  Multipass Spectroscopic Absorption Cells
    5.4.2  Cavity Ring-down Spectroscopy (CRDS)
  5.5  Electric Power Industries Applications of TDLAS
    5.5.1  Introduction
    5.5.2  TDLAS Applications in Dissolved Gas Analysis
    5.5.3  CRDS Applications in GIS Faults Detection
    5.5.4  TDLAS Applications in SF? Gas Leak Detection
    5.5.5  TDLAS Applications in Coal-fired Power Plants
  5.6  Review Questions
  Bibliography
6  Infrared Thermal Imaging and Gases Leaking Detection
  6.1  Introduction
  6.2  Key Factors and Characteristics of Thermal Imaging
  6.3  Main Components of Infrared Thermographers
  6.4  Multispectral vs Hyperspectral Imaging: Differences
  6.5  Smart Grid Applications of Infrared Thermal Imagers
  6.6  Remote Gas Leak Detection by IR Imager
    6.6.1  Infrared SF? Gas Leak Imager in Electric Power Grids
    6.6.2  Arbitrary Gas Leak Detection by Commercial IR Cameras
  6.7  Hyperspectral Imaging Applications in Electric Industry
  6.8  Review Questions
  Bibliography
7  Ultraviolet Spectroscopy & UV Camera
  7.1  Introduction
  7.2  Basic Principles
    7.2.1  The Origin of UV Band Structure
    7.2.2  The Origin of Electric Discharge and Solar Blind Bands
  7.3  Main Components of UV Cameras
    7.3.1  UV Filters
    7.3.2  UV Lens
    7.3.3  Photomultiplier Tubes
    7.3.4  Comparison among CCD, EMCCD, ICCD
  7.4  Application Examples of UV Cameras in Smart Grids
  7.5  Comparison of Ultraviolet and Infrared Imaging
  7.6  Review Questions
  Bibliography
8  Electrochemical Gas Sensors for GIS Off-line Detection
  8.1  Introduction
  8.2  Basic Principles
    8.2.1  Properties of Sulphur Hexafluoride SF? Gas
    8.2.2  Electrical Characteristics of SF? Gas

  8.3  Decomposition of SF? and Its Mixtures in Gas Insulated Equipment
  8.4  Electrochemical Sensors for GIS
    8.4.1  Fundamentals of Electrochemistry for SO? & H?S Sensors
    8.4.2  Market for Electrochemical Gas Sensors
  8.5  Application Examples of Electrochemical Sensors for GIS
  8.6  Review Questions
  Bibliography
9  Chemiluminescence and UV Absorption Detection
  9.1  Introduction
  9.2  Basic Principles
    9.2.1  Theoretical Foundation of Partial Discharge Phenomenon
    9.2.2  Chemical Reactions of Air under Corona Discharge
  9.3  Components of Ozone and NO? Monitors
    9.3.1  UV Absorption Spectrum for Ozone Monitoring
    9.3.2  Chemiluminescence Sensors for NO? Measurement
  9.4  Application Examples of Air Decomposition Analysis
    9.4.1  The Relationship between Ozone and Partial Discharge
    9.4.2  Ozone Distribution in Hydro-generators
    9.4.3  Ozone Sensors in Medium Voltage Switchboard
    9.4.4  Forthcoming Applications of Ozone Sensors
  9.5  Fundamental Study of Emission Spectrum in GIS
    9.5.1  Experimental Model of Emission Spectra Analysis in SF?
    9.5.2  Emission Spectra of Corona Discharge in SF?
    9.5.3  Emission Spectra of Spark Discharge in SF?
    9.5.4  Emission Spectra of Surface Discharge in SF?
  9.6  Review Questions
  Bibliography
10  Electro-optic and Magneto-optic Sensors
  10.1  Introduction
  10.2  Basic Principles
    10.2.1  Kerr Electro-optic Effect
    10.2.2  Pockels Electro-optic Effect
    10.2.3  Faraday Magneto-optical Effect
  10.3  Applications of Electro-optic and Magneto-optic Sensors
    10.3.1  Current and Voltage Combo Sensors for Substations
    10.3.2  Research and Development of ±800 kV UHVDC Fiber Optical Current Transducer
  10.4  Review Questions
  Bibliography
11  Michelson and Fabry-Perot Interferometer
  11.1  Introduction
  11.2  Basic Principles
    11.2.1  Category of Interferometers
    11.2.2  Working Principle of Michelson Interferometer
    11.2.3  Working Principle of Fabry-Perot Interferometer
  11.3  Applications of Michelson and Fabry-Perot Interferometers
    11.3.1  Trace Gas Detection by Michelson Interferometers
    11.3.2  Partial Discharge Detection by Michelson Interferometers
    11.3.3  Partial Discharge Detection by Fabry-Perot Interferometer
    11.3.4  Temperature Sensing by Fabry-Perot Interferometers
    11.3.5  Mechanical Vibration Sensing by Fabry-Perot Interferometers

    11.3.6  Acoustic Wave Sensing by Fabry-Perot Interferometers
    11.3.7  Ultrasound Sensing by Fabry-Perot Interferometers
    11.3.8  Pressure Sensing by Fabry-Perot Interferometers
  11.4  Review Questions
  Bibliography
12  Acoustic and Ultrasonic Imaging
  12.1  Introduction
  12.2  Basic Principles
    12.2.1  Audio Spectrum
    12.2.2  Working Principle of Microphones
    12.2.3  Piezoelectric Effect and Piezoelectric Materials
  12.3  Applications of Acoustic and Ultrasonic Sensors
    12.3.1  Causes of Noise in Power Transformers
    12.3.2  Voiceprints and Their Recognition
    12.3.3  Acoustic Imaging of Mechanical Vibration and Noise
    12.3.4  Partial Discharge Ultrasonic Detection in Enclosed Spaces
    12.3.5  Ultrasonic Camera Applications in Substations
  12.4  Review Questions
  Bibliography

内容大纲

作者介绍

目录

同类热销排行榜

推荐书目