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气体放电与气体绝缘(英文版) |  |
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气体放电与气体绝缘(英文版) | |
1Introduction
1.1Definition and Content of Gas Discharge
1.2History of Electrical Discharge Research
1.3Classification of the Discharge
1.4Application of the Discharge
1.5Definition and Content of Gas Insulation
1.6History and Application of Sulfur Hexafluoride
1.7Situation and Development of Environmentally Friendly Insulating Gas
References
2Fundamentals of Gas Discharge
2.1Charged Panicles in the Process of Gas Discharge
2.1.1Photons
2.1.2Electrons
2.1.3Ground State Atoms(or Molecules)and Excited Atoms(or Molecules)
2.1.4Positive and Negative Ions
2.2Movement of Charged Panicles
2.2.1Thermal Motion of Charged Particles
2.2.2Diffusion Motion of Charged Particles
2.2.3Drift Motion of Charged Particles
2.3Collision Interactions of Charged Particles
2.3.1Classification of Collision Between Panicles
2.3.2Collision Energy Transfer
2.3.3Collision Characteristic Parameters
2.3.4Elastic Collisions of Electrons, Ions and Atoms
2.3.5Excitation and Ionization of Gas Atoms
2.3.6Gas Particle Excitation Transferring
2.3.7Disappearance of Charged Particles
References
3Fundamental Theory of Townsend Discharge
3.1Formation and Development of Electronic Avalanche
3.1.1Formation of Electronic Avalanche
3.1.2a Process
3.1.3γ Process
3.2Self-Sustaining Discharge Criterion
3.2.1Gas Discharge Volt-Ampere Characteristics
3.2.2From Non-Self-Sustaining to Self-Sustaining Discharge
3.2.3The Condition of Self-Sustained Discharge
3.3Paschen's Law
3.3.1Paschen's Law
3.3.2The Impact of Impurity Gases on the Breakdown Potential
3.3.3The Impact of Electrodes on Breakdown Voltage
3.3.4The Impact of Electric Field Distribution on Breakdown Voltage
3.3.5The Impact of External Ionization Source on Breakdown Potential
3.4Townsend Discharge Experiments
3.4.1The Steady-State Townsend Experiment(SST)
3.4.2Pulse Townsend Method(PT)
References
4Fundamental Theory of Streamer and Leader Discharge
4.1Streamer Discharge Mechanism
4.1.1Basic Properties of Spark Discharge
4.1.2Streamer Discharge
4.2Long Gap and Leader Discharge
4.2.1Experimental Study on the Long Gap Discharge in Air
4.2.2Discharge Process in Non-uniform Electric Field
References
5Theoretic Analysis Methods for Modeling Gas Discharge
5.1Monte Carlo Simulation
5.1.1Introduction of General Monte Carlo Simulation.
5.1.2Monte Carlo Simulation of Electron Avalanche Development
5.1.3Electron Swarm Parameters from Monte Carlo Simulation
5.2Boltzmann Equation Method
5.2.1Introduction to Boltzmann Equation Method
5.2.2Electron Swarm Parameters Calculated by Boltzmann Equation Method
References
6Dielectric Strength of Atmosphere Air
6.1Breakdown Voltage Characteristics in Uniform and Quasi-uniform Electric Fields
6.1.1Breakdown Characteristics Under Continuous Voltages
6.1.2Breakdown Characteristics Under Lightning Impulse Voltages
6.1.3Breakdown Characteristics Under Operating Impulse Voltage
6.2Breakdown Characteristics in Extremely Nonuniform Electric Fields
6.2.1Breakdown Characteristics Under Continuous Voltage
6.2.2Breakdown Characteristics Under Lightning Impulse Voltage
6.2.3Breakdown Voltage Under Operating Impulse Voltage
6.3Methods to Improve Insulation Strength in Air
6.3.1Improve the Shape of Electrodes
6.3.2Use of Electric Field Distortion by Space Charges.
6.3.3Use of Barrier in Extremely Nonuniform Electric Fields
6.3.4Solid Insulating Coating Layer
6.3.5Use of High Pressure
6.3.6Use of High Vacuum
6.3.7Use of High-Dielectric-Strength Gases
References
7Insulation Characteristics of Sulfur Hexafluoride(SF6)
7.1Basic Physical and Chemical Properties of SF6
7.1.1Molecular Structure
7.1.2Gas State Parameters
7.1.3Electronegativity and Thermal Performance
7.1.4Decomposition of SF6
7.2Breakdown Characteristics of SF6
7.2.1Breakdown Characteristics in Uniform Electric Fields
7.2.2Breakdown Characteristics in Quasi-uniform Fields
7.2.3Breakdown Characteristics in Extremely Non-uniform Fields
7.3Surface Discharge Characteristics of Solid Insulators in SF6
7.3.1Effects of Electric Field Distribution
7.3.2Other Factors Affecting Solid Surface Discharge Characteristics
7.4Factors Affecting Insulation Properties of SF6
7.4.1Effects of Gas Pressure on Breakdown Voltage of SF6
7.4.2Effect of Electric Field Uniformity on Breakdown Voltage of SF6
7.4.3Effect of Polarity on Breakdown Voltage of SF6
7.4.4Effect of Surface Roughness on Breakdown Voltage of SF6
References
8Insulating Characteristics of SF6 Gas Mixtures
8.1Improvements of Gas Mixtures on Defects of SF6
8.1.1Liquefaction Temperature
8.1.2Insulating Properties
8.1.3Cost of Gas
8.1.4Environmental Protection
8.2Mixing Characteristics of SF6 Gas Mixtures
8.2.1Mixing Ratio
8.2.2Changes of Mixing Ratio with Height
8.2.3Mixing Process
8.2.4Recovery of Gas Mixtures
8.3Insulation Properties of Binary Mixtures of SF6 with Other Gases
8.3.1Electrical Strength of SF6/N2 Gas Mixtures
8.3.2Electrical Strength of SF6/CO2 Gas Mixtures
8.3.3Contrast Between SF6/N2 and SF6/CO2
8.4Other Multivariate SF6 Gas Mixtures
8.4.1SF6/He and SF6/Ne Gas Mixtures
8.4.2SF6/Ar, SF6/Kr and SF6/Xe Gas Mixtures
8.4.3Gas Mixtures Consisting of SF6 and Gases Containing Halogen Elements
References
9Insulating Characteristics of Potential Alternatives to Pure SF6
9.1Research Advances on Substitutes for SF6
9.1.1Significance of Research
9.1.2Current Research on Alternatives to SF6 Gas
9.2Insulation Properties of c-C4F8 and Its Gas Mixtures
9.2.1c-C4F8/CO2 Discharge Characteristics and Analysis.
9.2.2c-C4F8/CF4 Discharge Characteristics and Analysis.
9.2.3c-C4F8/N2 Discharge Characteristics and Analysis..
9.2.4c-C4F8/N2O Discharge Characteristics and Analysis,
9.2.5The Influence of CO2,CF4,N2 and N2O on the(E/N) lim of c-C4F8
9.3Insulation Performance of CF3I and Its Gas Mixtures
9.3.1Insulation Performance Analysis of CF3I
9.3.2Feasibility Analysis of CF3I and Its Gas Mixtures Used in C-GIS
9.4Insulation Performance of Other Potential Alternative Gas
9.4.1Perfluoropropane(C3F8)
9.4.2Nitrous Oxide(N2O)
9.4.3Trifluoromethane(CHF3)
9.4.4Fluorinated Carbon(CF4)
Reference
10Development Prospects of Gas Insulation
10.1Three Stages of Development of Gas Insulation
10.1.1Application and Development of Pure SF6 Gas
10.1.2Application and Development of SF6 Gas Mixtures
10.1.3Development of Research on Environmentally Friendly Insulation Gas
10.2Research and Development of c-C4F8 and Its Gas Mixtures
10.2.1Properties of c-C4F8
10.2.2Further Research on c-C4F8 and Its Mixtures Discharge Mechanism
10.2.3The Application and Development of c-C4F8 and Its Gas Mixtures
10.3Study and Development of CF3I and Its Gas Mixtures
10.3.1Physical Properties of CF3I Gas
10.3.2Further Study on Insulation Properties of CF3I Gas
10.3.3Research Tendency and Application of CF3I and Its Gas Mixtures
References
Index
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