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The Effect of Ammonia Injection Rate and Discharge Power on the Reduction of NOx from a Combustion Flue Gas by Superimposing Barrier Discharge Reactors
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K. Urashima
Published/Copyright:
January 26, 2017
Abstract
The effects of ammonia concentration on the removal of NOx in a combustion flue gas by superimposing barrier discharge plasma reactors are experimentally investigated. The experiments are conducted for the applied voltages from 0 to 24 kV, the flue rates from 0.5 to 2 L/min and ammonia mixture concentration from 0.7 to 1.2 stoichiometry. The results show that NOx removal increases with increasing discharge power, gas flow rates, and ammonia mixture concentration. NOx removal energy efficiency increases with increasing ammonia mixture concentration and gas flow rates, and decreases with increasing discharge power.
Received: 1996-12-20
Revised: 1997-5-8
Accepted: 1997-5-15
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
