|  | Parvulescu, Vasile I. / Magureanu, Monica / Lukes, Petr (Hrsg.)
Plasma Chemistry and Catalysis in Gases and Liquids
 1. Auflage Juni 2012
139,- Euro
2012. XVIII, 404 Seiten, Hardcover
114 Abb. (10 Farbabb.), 24 Tab.
- Monographie -
ISBN 978-3-527-33006-5 - Wiley-VCH, Weinheim
Preis inkl. Mehrwertsteuer zzgl. Versandkosten.
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Inhalt
Probekapitel
Index
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| Kurzbeschreibung
A comprehensive overview of the central aspects in plasma chemistry and plasma catalysis with an environmental focus. Covering gas, liquid as well as gas/liquid systems, the book includes topics from water treatment, VOC removal and syngas production.
Aus dem Inhalt
Preface
AN INTRODUCTION TO NONEQUILIBRIUM PLASMAS AT ATMOSPHERIC PRESSURE
Introduction
Coronas and Streamers
Glow Discharges at Higher Pressures
Dielectric Barrier and Surface Discharges
Gliding Arcs
Concluding Remark
CATALYSTS USED IN PLASMA-ASSISTED CATALYTIC PROCESSES: PREPARATION, ACTIVATION, AND REGENERATION
Introduction
Specific Features Generated by Plasma-Assisted Catalytic Applications
Chemical Composition and Texture
Methodologies Used for the Preparation of Catalysts for Plasma-Assisted Catalytic Reactions
Catalysts Forming
Regeneration of the Catalysts Used in Plasma Assisted Reactions
Plasma Produced Catalysts and Supports
Conclusions
NOX ABATEMENT BY PLASMA CATALYSIS
Introduction
General deNOx Model over Supported Metal Cations and Role of NTP Reactor: "Plasma-Assisted Catalytic deNOx Reaction"
About the Nonthermal Plasma for NOx Remediation
Special Application of NTP to Catalytic Oxidation of Methane on Alumina-Supported Noble Metal Catalysts
NTP-Assisted Catalytic NOx Remediation from Lean Model Exhausts Gases
Conclusions
VOC REMOVAL FROM AIR BY PLASMA-ASSISTED CATALYSIS-EXPERIMENTAL WORK
Introduction
Plasma-Catalytic Hybrid Systems for VOC Decomposition
VOC Decomposition in Plasma-Catalytic Systems
Concluding Remarks
VOC REMOVAL FROM AIR BY PLASMA-ASSISTED CATALYSIS: MECHANISMS, INTERACTIONS BETWEEN PLASMA AND CATALYSTS
Introduction
Influence of the Catalyst in the Plasma Processes
Influence of the Plasma on the Catalytic Processes
Thermal Activation
Plasma-Mediated Activation of Photocatalysts
Plasma-Catalytic Mechanisms
ELEMENTARY CHEMICAL AND PHYSICAL PHENOMENA IN ELECTRICAL DISCHARGE PLASMA IN GAS?LIQUID ENVIRONMENTS AND IN LIQUIDS
Introduction
Physical Mechanisms of Generation of Plasma in Gas-Liquid Environments and Liquids
Formation of Primary Chemical Species by Discharge Plasma in Contact with Water
Chemical Processes Induced by Discharge Plasma Directly in Water
Concluding Remarks
AQUEOUS-PHASE CHEMISTRY OF ELECTRICAL DISCHARGE PLASMA IN WATER AND IN GAS-LIQUID ENVIRONMENTS
Introduction
Aqueous-Phase Plasmachemical Reactions
Plasmachemical Decontamination of Water
Aqueous-Phase Plasma-Catalytic Processes
Concluding Remarks
BIOLOGICAL EFFECTS OF ELECTRICAL DISCHARGE PLASMA IN WATER AND IN GAS-LIQUID ENVIRONMENTS
Introduction
Microbial Inactivation by Nonthermal Plasma
Chemical Mechanisms of Electrical Discharge Plasma Interactions with Bacteria in Water
Physical Mechanisms of Electrical Discharge Plasma Interactions with Living Matter
Concluding Remarks
HYDROGEN AND SYNGAS PRODUCTION FROM HYDROCARBONS
Introduction: Plasma Catalysis
Current State of Hydrogen Production, Applications, and Technical Requirements
Description and Evaluation of the Process
Plasma-Assisted Reforming
Summary of the Results and Outlook
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