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Reduction of NO2 in N2 by Non-Thermal Plasmas
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M. C. Hsiao
Published/Copyright:
January 26, 2017
Abstract
Experimental results on the chemical reduction of dilute concentrations of NO2 in N2 by pulsed corona and dielectric-barrier discharge processing axe presented. The initial reduction of NO2 proceeds via N + NO2 → N2O + O. The subsequent reduction of NO2 then proceeds via O + NO2 -► NO + O2, followed by N + NO → N2 + O; the latter reaction reproduces O radicals to initiate the next NO2 reduction cycle.
Received: 1997-3-1
Revised: 1997-5-8
Accepted: 1997-5-18
Published Online: 2017-1-26
Published in Print: 1997-6-1
© 2017 by Walter de Gruyter Berlin/Boston
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Articles in the same Issue
- Masthead
- Contents
- Preface
- Editorial
- Research Articles
- An Industrial-Scale Experiment of Pulse Corona Process for Removing SO2 and NOx from Combustion Flue Gas
- Ozone and the Other Gaseous By-products Generated from Dry Air by the Trench Type Barrier Discharge Plasma Reactor
- Purification of Diesel Exhaust Gas Using Reducing Catalysers
- Reduction of NO2 in N2 by Non-Thermal Plasmas
- The Effect of Ammonia Injection Rate and Discharge Power on the Reduction of NOx from a Combustion Flue Gas by Superimposing Barrier Discharge Reactors
- Removal of NOx from Dry Air by a Pulsed Corona Discharge with Magnetic Field
- Comparison of Pulsed Corona and Electron Beam Processing of Hazardous Air Pollutants
- Effect of Gas Temperature on Pulsed Corona Discharge Processing of Acetone, Benzene and Ethylene
- Non-Thermal Plasma Techniques for the Reduction of Volatile Organic Compounds in Air Streams: A Critical Review
- Decomposition of Carbon Tetrachloride by a Packed Bed Plasma Reactor
- Non-Thermal Plasma Processing for VOCs Decomposition and NOx Removal in Flue Gas
- Removal of Xylene, Trichloroethylene and Their Mixtures from Air Stream by a Pulsed Corona Discharge Induced Plasma Reactor
- Barrier Discharge Optimization for Nitric Oxide Destruction
Articles in the same Issue
- Masthead
- Contents
- Preface
- Editorial
- Research Articles
- An Industrial-Scale Experiment of Pulse Corona Process for Removing SO2 and NOx from Combustion Flue Gas
- Ozone and the Other Gaseous By-products Generated from Dry Air by the Trench Type Barrier Discharge Plasma Reactor
- Purification of Diesel Exhaust Gas Using Reducing Catalysers
- Reduction of NO2 in N2 by Non-Thermal Plasmas
- The Effect of Ammonia Injection Rate and Discharge Power on the Reduction of NOx from a Combustion Flue Gas by Superimposing Barrier Discharge Reactors
- Removal of NOx from Dry Air by a Pulsed Corona Discharge with Magnetic Field
- Comparison of Pulsed Corona and Electron Beam Processing of Hazardous Air Pollutants
- Effect of Gas Temperature on Pulsed Corona Discharge Processing of Acetone, Benzene and Ethylene
- Non-Thermal Plasma Techniques for the Reduction of Volatile Organic Compounds in Air Streams: A Critical Review
- Decomposition of Carbon Tetrachloride by a Packed Bed Plasma Reactor
- Non-Thermal Plasma Processing for VOCs Decomposition and NOx Removal in Flue Gas
- Removal of Xylene, Trichloroethylene and Their Mixtures from Air Stream by a Pulsed Corona Discharge Induced Plasma Reactor
- Barrier Discharge Optimization for Nitric Oxide Destruction
