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Dilute Trichloroethylene Decomposition in Air by Using Non-Thermal Plasma - Catalyst Effect
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Tetsuji Oda
Published/Copyright:
November 30, 2016
Abstract
Dilute trichloroethylene (TCE) decomposition by the non-thermal plasma processing is investigated concerning with the enhancement of the removal-energy efficiency by use of the catalyst. Tested catalysts are zeolite, titania, vanadium oxide and tungsten oxide, which are inserted into the plasma region as pellets of a few mm spheres or discs. As the zeolite adsorbs too much TCE during a long period, the enhancing effect on the removal energy efficiency by the zeolite is not yet clear, but other catalysts can surely reduce the necessary energy to decompose TCE. As there are still too many parameters affecting the removal performance, the best catalyst, as enhancing the plasma processing, and that operating conditions will be analyzed in future.
Received: 2001-7-10
Revised: 2002-10-15
Accepted: 2002-10-19
Published Online: 2016-11-30
Published in Print: 2003-1-1
© 2016 by Walter de Gruyter Berlin/Boston
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- Synergetic Effects of Non-thermal Plasma and Catalysts on VOCs Decomposition
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- Approach of the Physical and Chemical Specific Properties of Pulsed Surface Dielectric Barrier Discharges in Air at Atmospheric Pressure
- Removal of Gaseous Acetaldehyde via a Silent Discharge Reactor Packed with Al2O3 Beads
- Characteristics of Nitric Monoxide Generation Using High Frequency Silent Discharge
- Oil Cracking Characteristics by Streamer Discharge in Oil
- Development of Photocatalyst Plasma Air Cleaning Filter Used in Air Conditioner
- The Effects of Using Various Types of Pulsed Discharge Reactors for Phenol Removal in Waste Water
- Decomposition of VOC in Air Using a Streamer Corona Discharge Reactor Combined with Catalyst
- Photodegradation of VOCs and Bad Smells in a TiO2 Coated Honeycomb Monolith Reactor
- Dilute Trichloroethylene Decomposition in Air by Using Non-Thermal Plasma - Catalyst Effect
- Photocatalysed Degradation of a Herbicide Derivative, Diphenamid in Aqueous Suspension of Titanium Dioxide
- Treatment of Liquid Waste Containing Ethylenediamine Tetraaceticaxid by Advanced Oxidation Processes
Articles in the same Issue
- Preface
- Synergetic Effects of Non-thermal Plasma and Catalysts on VOCs Decomposition
- Measurements of Electron Energy by Emission Spectroscopy in Pulsed Corona and Dielectric Barrier Discharges
- Kinetics, Products and Mechanism of Destruction of Ethane in Corona Discharge
- Destruction of Isotopically Enriched Nitric Oxide, 15N18O, in Air in Corona Discharge: Direct Observation of NOx Reduction to Molecular Nitrogen
- Development of Demonstration Plant Using Non-thermal Plasma Process to Remove SO2 and NOx from Flue Gas
- Approach of the Physical and Chemical Specific Properties of Pulsed Surface Dielectric Barrier Discharges in Air at Atmospheric Pressure
- Removal of Gaseous Acetaldehyde via a Silent Discharge Reactor Packed with Al2O3 Beads
- Characteristics of Nitric Monoxide Generation Using High Frequency Silent Discharge
- Oil Cracking Characteristics by Streamer Discharge in Oil
- Development of Photocatalyst Plasma Air Cleaning Filter Used in Air Conditioner
- The Effects of Using Various Types of Pulsed Discharge Reactors for Phenol Removal in Waste Water
- Decomposition of VOC in Air Using a Streamer Corona Discharge Reactor Combined with Catalyst
- Photodegradation of VOCs and Bad Smells in a TiO2 Coated Honeycomb Monolith Reactor
- Dilute Trichloroethylene Decomposition in Air by Using Non-Thermal Plasma - Catalyst Effect
- Photocatalysed Degradation of a Herbicide Derivative, Diphenamid in Aqueous Suspension of Titanium Dioxide
- Treatment of Liquid Waste Containing Ethylenediamine Tetraaceticaxid by Advanced Oxidation Processes
