05665nam 2200601 a 450 991081101950332120240410171820.01-61470-585-2(CKB)2550000001042582(EBL)3020403(SSID)ssj0000860630(PQKBManifestationID)12401192(PQKBTitleCode)TC0000860630(PQKBWorkID)10896997(PQKB)11647384(MiAaPQ)EBC3020403(Au-PeEL)EBL3020403(CaPaEBR)ebr10676693(OCoLC)836864206(EXLCZ)99255000000104258220080910d2009 uy 0engur|n|---|||||txtccrPhysics and technology of high-current discharges in dense gas media and flows[electronic resource] /Philip Rutberg1st ed.New York Nova Science Publishers, Inc.c20091 online resource (226 p.)Description based upon print version of record.1-60692-232-7 Includes bibliographical references and index.Intro -- PHYSICS AND TECHNOLOGY OF HIGH-CURRENT DISCHARGES IN DENSE GAS MEDIA AND FLOWS -- PHYSICS AND TECHNOLOGY OF HIGH-CURRENT DISCHARGES IN DENSE GAS MEDIA AND FLOWS -- CONTENTS -- PREFACE -- Chapter I PROCESSES IN HIGH CURRENT DISCHARGES IN 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 INCREASE RATE OF 109 A/SEC -- 3.1 Discharge Character -- 3.2 Discussion of the Results -- 4. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASE RATE 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 INCREASE RATE OF (0.6-3)×107 A/SEC -- 5.1 Electro-Machine Source -- 5.2 Inductive Storage -- 6. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASE RATE OF (0.6-1.8)×1010A/SEC -- 7. LARGE CURRENT DISCHARGE UNDER THE CURRENT INCREASE RATE OF 6×1011A/SEC -- 8. HEAT EXCHANGE IN THE DISCHARGE CHAMBER : HEAT EXCHANGE BETWEEN THE DISCHARGE 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 DISCHARGES IN PULSE GENERATORS OF DENSE PLASMA -- 11. PULSE PLASMA GENERATORS -- 11.1 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-Gas Accelerators of Bodies -- 12. CONCLUSION -- REFERENCES -- Chapter II INVESTIGATION OF HIGH-CURRENT DISCHARGES IN 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 Gas -- 2.4. On the Opportunity to Obtain the Detachment of the Oscillating Temperature 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 PLASMA GENERATORS AND THEIR CONSTRUCTIONS -- 4.1 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 with Power up to 150 Kw -- 4.6 Multi-Phase Multi-Chamber Plasma Generators of Alternating Current -- 4.7. Multi-Phase Single-Chamber Plasma Generators of Alternating Current -- 4.8. Plasma Generators with Rod Electrodes -- 4.9. High-Voltage One- and Three-Phase Plasmatron -- 5. EXTERNAL CHARACTERISTICS OF PLASMA GENERATORS -- 6. PLASMA TECHNOLOGIES -- 6.1. General Description -- 6.2. Plasma Pyrolysis and Gasification -- 6.3 Plasma High-Temperature Oxidizing -- REFERENCES -- Chapter III INVESTIGATION OF PULSE ELECTRIC DISCHARGES IN LIQUIDS -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL UNIT AND THE PED PARAMETERS -- 3. EROSION OF ELECTRODES AND THE NANOPARTICLES -- 4. BIOLOGICAL OBJECTS AND METHODS OF INVESTIGATION -- 5. NANOPARTICLES IN DISPERSIONS -- 6. NANOPARTICLES AND BLOOD SERUM -- 7. AGGREGATION OF LYSOZYME ON NANOPARTICLES.8. BACTERICIDAL ACTION OF WATER TREATED BY PED -- 9. MECHANISM OF PMRW -- 10. INFLUENCE OF NANOPARTICLES ON TUMOR GROWTH IN VIVO -- REFERENCES -- INDEX -- Blank Page.Low temperature plasmasGas flowPlasma generatorsPulsed power systemsLow temperature plasmas.Gas flow.Plasma generators.Pulsed power systems.530.4/4Rutberg Philip792510MiAaPQMiAaPQMiAaPQBOOK9910811019503321Physics and technology of high-current discharges in dense gas media and flows3924892UNINA