Influence of carrier gas on microwave-induced pyrolysis

Influence of carrier gas on microwave-induced pyrolysis

Interest in microwave-induced pyrolysis has increased in recent years due to its several advantages over conventional pyrolysis. Most of these advantages are related to the presence of microplasmas in microwave heating, since the pyrolysis reactions that take place in a plasma atmosphere generally produce light molecules, such as H<inf>2</inf> and CO. Although the exact nature of these plasmas is as yet unknown, it is likely to be dependent on the ionization of the surrounding gases. For this reason, the influence of different carrier gases (N<inf>2</inf>, He or no carrier gas) on microwave-induced pyrolysis was chosen as the subject of this study. It was found that microwave-induced pyrolysis can be used to obtain equally good gas compositions and yields after the reactor has been inertized, without the need for a carrier gas.

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Bibliographic Details
Main Authors: Beneroso Vallejo, Daniel, Bermúdez Menéndez, José Miguel, Arenillas de la Puente, Ana, Menéndez Díaz, José Ángel
Other Authors: European Commission
Format: artículo biblioteca
Published: Elsevier
Subjects:Carrier, Microwave pyrolysis, Microplasmas, Syngas,
Online Access:http://hdl.handle.net/10261/132678
http://dx.doi.org/10.13039/501100000780
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Summary:Interest in microwave-induced pyrolysis has increased in recent years due to its several advantages over conventional pyrolysis. Most of these advantages are related to the presence of microplasmas in microwave heating, since the pyrolysis reactions that take place in a plasma atmosphere generally produce light molecules, such as H<inf>2</inf> and CO. Although the exact nature of these plasmas is as yet unknown, it is likely to be dependent on the ionization of the surrounding gases. For this reason, the influence of different carrier gases (N<inf>2</inf>, He or no carrier gas) on microwave-induced pyrolysis was chosen as the subject of this study. It was found that microwave-induced pyrolysis can be used to obtain equally good gas compositions and yields after the reactor has been inertized, without the need for a carrier gas.

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