Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses

E. Litvishko, A. Ivanov, M. Goreshnev

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

In this study, the principal possibility of methane formation from syngas (the mixture of hydrogen and carbon monoxide) in the dielectric barrier discharge plasma was shown. The results of syngas conversion under microsecond voltage pulses (amplitude of 12 kV and pulse repetition rate of 1000 1/s) treatment in the five-tube reactor were discussed. The dependence of the methane formation on the volume flow rate and the energy input were studied. Also effect of nitrogen addition to the initial gaseous mixture on the methane formation was investigated.

Original languageEnglish
Title of host publicationAdvanced Materials for Technical and Medical Purpose
EditorsGeorgiy Osokin, Gennady E. Remnev, Sergey Psakhie, Valeriy Pogrebenkov, Nikolay Ratakhin
PublisherTrans Tech Publications Ltd
Pages71-75
Number of pages5
ISBN (Print)9783035710649
DOIs
Publication statusPublished - 1 Jan 2016
EventWorkshop on Advanced Materials for Technical and Medical Purpose, AMTMP-2016 - Tomsk, Russian Federation
Duration: 15 Feb 201617 Feb 2016

Publication series

NameKey Engineering Materials
Volume712
ISSN (Print)1013-9826

Conference

ConferenceWorkshop on Advanced Materials for Technical and Medical Purpose, AMTMP-2016
CountryRussian Federation
CityTomsk
Period15.2.1617.2.16

Fingerprint

Methane
Plasmas
Pulse repetition rate
Carbon Monoxide
Carbon monoxide
Hydrogen
Laser pulses
Nitrogen
Flow rate
Electric potential

Keywords

  • Dielectric barrier discharge
  • Methane
  • Plasma
  • Syngas

ASJC Scopus subject areas

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Litvishko, E., Ivanov, A., & Goreshnev, M. (2016). Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses. In G. Osokin, G. E. Remnev, S. Psakhie, V. Pogrebenkov, & N. Ratakhin (Eds.), Advanced Materials for Technical and Medical Purpose (pp. 71-75). (Key Engineering Materials; Vol. 712). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.712.71

Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses. / Litvishko, E.; Ivanov, A.; Goreshnev, M.

Advanced Materials for Technical and Medical Purpose. ed. / Georgiy Osokin; Gennady E. Remnev; Sergey Psakhie; Valeriy Pogrebenkov; Nikolay Ratakhin. Trans Tech Publications Ltd, 2016. p. 71-75 (Key Engineering Materials; Vol. 712).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Litvishko, E, Ivanov, A & Goreshnev, M 2016, Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses. in G Osokin, GE Remnev, S Psakhie, V Pogrebenkov & N Ratakhin (eds), Advanced Materials for Technical and Medical Purpose. Key Engineering Materials, vol. 712, Trans Tech Publications Ltd, pp. 71-75, Workshop on Advanced Materials for Technical and Medical Purpose, AMTMP-2016, Tomsk, Russian Federation, 15.2.16. https://doi.org/10.4028/www.scientific.net/KEM.712.71
Litvishko E, Ivanov A, Goreshnev M. Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses. In Osokin G, Remnev GE, Psakhie S, Pogrebenkov V, Ratakhin N, editors, Advanced Materials for Technical and Medical Purpose. Trans Tech Publications Ltd. 2016. p. 71-75. (Key Engineering Materials). https://doi.org/10.4028/www.scientific.net/KEM.712.71
Litvishko, E. ; Ivanov, A. ; Goreshnev, M. / Non catalytic methane formation from syngas in the dielectric barrier discharge plasma, initiated by microsecond pulses. Advanced Materials for Technical and Medical Purpose. editor / Georgiy Osokin ; Gennady E. Remnev ; Sergey Psakhie ; Valeriy Pogrebenkov ; Nikolay Ratakhin. Trans Tech Publications Ltd, 2016. pp. 71-75 (Key Engineering Materials).
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