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High efficient plasma method for freon destruction.
Author(s) : JASINSKI M., MIZERACZYK J., CZYLKOWSKI D., et al.
Summary
Results of the investigation of destruction of CFC-11 in atmospheric-pressure flowing nitrogen or air using a moderate-power (several hundred Watts) microwave torch plasma (MTP) are presented. The gas flow rate and microwave power (2.45 GHz) delivered to the discharge were 2 to 4 l/min. and 400 W, respectively. Concentrations of CFC-11 in the flowing nitrogen or air were 50%. The results showed that the CFC destruction efficiency using the MTP was 100%. The removal yield (several hundreds g/h) and energy yield (almost 1 kg/kWh) are superior to those of other methods and make the tested MTP highly attractive for the practical destruction of CFC.
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Pages: 2001-4
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Details
- Original title: High efficient plasma method for freon destruction.
- Record ID : 2004-0528
- Languages: English
- Source: Refrigerant Management and Destruction Technologies of CFCs.
- Publication date: 2001/08/29
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Indexing
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Themes:
CFCs;
Containment, refrigerant charge reduction - Keywords: CFC; R11; Process; Plasma (physics); Destruction; Refrigerant
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Usage of transferred arc in destruction of wastes.
- Author(s) : ZHELEZNY V. P., ZHELEZNY P. V., HLIEVA O. Â.
- Date : 2001/08/29
- Languages : English
- Source: Refrigerant Management and Destruction Technologies of CFCs.
- Formats : PDF
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Decomposition of CFC-22 in free jet argon plasma.
- Author(s) : RUCIÑSKI A., RUSOWICZ A.
- Date : 2001/08/29
- Languages : English
- Source: Refrigerant Management and Destruction Technologies of CFCs.
- Formats : PDF
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Chlorofluorocarbons destruction technology by i...
- Author(s) : SUZUKI M., ABE T., KOBAYASHI A., IMOTO K., AMANO T., KOMAKI H., KAWAGUCHI Y., OHYAMA C., TAKAICHI T., MIZUNO K.
- Date : 1995/10/23
- Languages : English
- Source: Stratospheric Ozone Protection for the 90's. 1995 International CFC and Halon Alternatives Conference & Exhibition. Conference proceedings.
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Decomposition technology of CFC using submerged...
- Author(s) : TAKAHASHI K., NAKANISHI R., KUROSAKA T.
- Date : 2000/12/07
- Languages : Japanese
- Source: The International Symposium on HCFC Alternative Refrigerants and Environmental Technology 2000: Latest technology for Energy Conservation, Refrigerants and Recycling on Air-Conditioning and Refrigeration Equipment for the 21st century. Proceedings.
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CFC decomposition treating technology using a s...
- Author(s) : HIDETAKA K., KANAZAWA M.
- Date : 2000/12/07
- Languages : Japanese
- Source: The International Symposium on HCFC Alternative Refrigerants and Environmental Technology 2000: Latest technology for Energy Conservation, Refrigerants and Recycling on Air-Conditioning and Refrigeration Equipment for the 21st century. Proceedings.
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