Physics and technology of high-current discharges in dense gas media and flows /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Rutberg, Philip
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, [2009]
Temas:
Low temperature plasmas.
Gas flow.
Plasma generators.
Pulsed power systems.
Plasmas froids.
Gaz > Écoulement.
Générateurs de plasma.
Énergie pulsée.
SCIENCE > Energy.
SCIENCE > Mechanics > General.
SCIENCE > Physics > General.
Gas flow
Low temperature plasmas
Plasma generators
Pulsed power systems
Acceso en línea:Texto completo
Tabla de Contenidos:
  • PREFACE; Chapter IPROCESSES IN HIGH CURRENT DISCHARGESIN DENSE AND SUPER DENSE GAS ENVIRONMENTS; ABSTRACT; 1. INTRODUCTION; 2. CONSTRUCTION OF THE DISCHARGE CHAMBERS; 2.1 Methods of Diagnostics; 2.2 Pressure Measuring; 2.3 Roentgen Measuring; 3. LARGE CURRENT DISCHARGE WITH THE CURRENT INCREASERATE OF 109 A/SEC; 3.1 Discharge Character; 3.2 Discussion of the Results; 4. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASERATE OF (1-3) 108 A/SEC; 4.1 Discharge in Hydrogen; 4.2 Discharge in Helium, Nitrogen, and Argon.
  • 5. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASERATE OF (0.6-3) 107 A/SEC5.1 Electro-Machine Source; 5.2 Inductive Storage; 6. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASERATE OF (0.6-1.8) 1010A/SEC; 7. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASERATE OF 6 1011A/SEC; 8. HEAT EXCHANGE IN THE DISCHARGE CHAMBER :HEAT EXCHANGE BETWEEN THEDISCHARGE AND THE WORKING GAS; 8.1 Electrodes; 8.2 Peculiarities of the Electrodes' Erosion; 9. PULSE DISCHARGE IN THE SUPER DENSE GAS; 10. WORKING CHARACTERISTICS OF LARGE CURRENT DISCHARGESIN PULSE GENERATORS OF DENSE PLASMA.
  • 11. PULSE PLASMA GENERATORS11.1 Pulse Electric Arc Plasma Generators; 11.2 Pulse Electric Arc Plasma Generators with Co-Axial Electrodes; 11.3 Pulse Plasma Generators with Two Rod Electrodes; 11.4 Pulse Electric Arc Plasmatrons with Co-Axial Rod Electrodes; 11.5 Pulse Plasma Generators and the Electric Discharge Light-GasAccelerators of Bodies; 12. CONCLUSION; REFERENCES; Chapter IIINVESTIGATION OF HIGH-CURRENT DISCHARGESIN GAS ENVIRONMENTS; ABSTRACT; 1. INTRODUCTION; 2. DISCHARGES IN GAS ENVIRONMENTS; 2.1. Character of the Discharge; 2.2. Discharge in Nitrogen.
  • 2.3. Heat Exchange between the Arc and the Working Gas2.4. On the Opportunity toObtain the Detachment of the OscillatingTemperature of Nitrogen in Decaying Plasma under High Pressure; 2.5. Heating by Radiation in Nitrogen; 2.6. Discharge in Air and in Water Vapors; 3. ELECTRODES; 3.1. Measurements of Surface Temperature of Electrodes; 3.2. Working Regimes of Electrodes; 3.3. Investigation of the Electrodes' Material; 3.4. Run-Out of the Electrodes; 3.5. Work of Electrodes in the Oxidizing Environments: The Rail Electrodes; 3.6. The Core-Type Electrodes.
  • 4. THE MAIN TECHNICAL CHARACTERISTICS OF PLASMAGENERATORS AND THEIR CONSTRUCTIONS4.1 Classification of Plasma Generators; 4.2. DC Plasma Generators; 4.3. AC Plasma Generators; 4.4 Single-Phase Plasma Generators of Alternating Current; 4.5 A Single-Phase AC Plasma Generator with an Arc of Direct Action withPower up to 150 Kw; 4.6 Multi-Phase Multi-Chamber Plasma Generators of Alternating Current; 4.7. Multi-Phase Single-Chamber Plasma Generators of AlternatingCurrent; 4.8. Plasma Generators with Rod Electrodes; 5. EXTERNAL CHARACTERISTICS OF PLASMA GENERATORS; 6. PLASMA TECHNOLOGIES.

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