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Plasma Chemical Oxygen Conversion in an Industry‐Oriented Reactor Design
The use of non‐thermal plasma enables chemical conversions as well as the removal of trace gas components. This application purpose has already been demonstrated for volume flow rates on a laboratory scale using a coaxial dielectric barrier discharge reactor. The next milestone is now to scale up this technology for application purposes with higher volume flow rates. In the present paper, the first successful conversion results from a steel reactor developed for the purpose of upscaling are presented.
Plasma Chemical Oxygen Conversion in an Industry‐Oriented Reactor Design
The use of non‐thermal plasma enables chemical conversions as well as the removal of trace gas components. This application purpose has already been demonstrated for volume flow rates on a laboratory scale using a coaxial dielectric barrier discharge reactor. The next milestone is now to scale up this technology for application purposes with higher volume flow rates. In the present paper, the first successful conversion results from a steel reactor developed for the purpose of upscaling are presented.
Plasma Chemical Oxygen Conversion in an Industry‐Oriented Reactor Design
Nitsche, Tim (author) / Kostrzewa, Jannis (author) / Budt, Marcus (author)
Chemie Ingenieur Technik ; 94 ; 1516-1523
2022-10-01
8 pages
Article (Journal)
Electronic Resource
English
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