Plasma-Assisted Non-Oxidative Coupling of Methane: Effects of Bead Size Distribution and Operating Pressure in a Co-axial DBD

T. S. Larsen; J. A. Andersen; A. Fateev; M. Østberg; E. Morais; A. Bogaerts; A. D. Jensen

doi:10.1007/s11090-025-10548-1

Plasma-Assisted Non-Oxidative Coupling of Methane: Effects of Bead Size Distribution and Operating Pressure in a Co-axial DBD

T. S. Larsen, J. A. Andersen, A. Fateev, M. Østberg, E. Morais, A. Bogaerts, A. D. Jensen^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

A co-axial packed-bed DBD reactor was used to conduct plasma-assisted non-oxidative coupling of methane (NOCM) utilizing glass beads as packing material at a fixed plasma power of 30 W. The influence on NOCM of five different bead size distributions (2000–5000 µm, 900–1100 µm, 425–600 µm, 212–300 µm, 150–212 µm) and operating pressure (1.2 bar, 1.7 bar) was investigated. The observed products consist of a mixture of saturated and unsaturated C₂–C₅ hydrocarbons. The conversion of methane decreased from 8.5 to 3.7% with decreasing bead size, while the selectivity towards unsaturated C₂ compounds increased from 16 to 50% with decreasing bead size. These reactor performance variations are associated with the transitional plasma dynamics and degree of partial discharging, as determined by characterization of non-ideal charge–voltage plots for the five tested glass bead sizes.

Original language	English
Journal	Plasma Chemistry and Plasma Processing
ISSN	0272-4324
DOIs	https://doi.org/10.1007/s11090-025-10548-1
Publication status	Accepted/In press - 2025

Keywords

Non-oxidative coupling of CH
Non-thermal plasma
Packed bed DBD reactor
Partial discharging
Plasma–packing interactions

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@article{86525564960748908084f4cb9879cc71,

title = "Plasma-Assisted Non-Oxidative Coupling of Methane: Effects of Bead Size Distribution and Operating Pressure in a Co-axial DBD",

abstract = "A co-axial packed-bed DBD reactor was used to conduct plasma-assisted non-oxidative coupling of methane (NOCM) utilizing glass beads as packing material at a fixed plasma power of 30 W. The influence on NOCM of five different bead size distributions (2000–5000 µm, 900–1100 µm, 425–600 µm, 212–300 µm, 150–212 µm) and operating pressure (1.2 bar, 1.7 bar) was investigated. The observed products consist of a mixture of saturated and unsaturated C2–C5 hydrocarbons. The conversion of methane decreased from 8.5 to 3.7% with decreasing bead size, while the selectivity towards unsaturated C2 compounds increased from 16 to 50% with decreasing bead size. These reactor performance variations are associated with the transitional plasma dynamics and degree of partial discharging, as determined by characterization of non-ideal charge–voltage plots for the five tested glass bead sizes.",

keywords = "Non-oxidative coupling of CH, Non-thermal plasma, Packed bed DBD reactor, Partial discharging, Plasma–packing interactions",

author = "Larsen, {T. S.} and Andersen, {J. A.} and A. Fateev and M. {\O}stberg and E. Morais and A. Bogaerts and Jensen, {A. D.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1007/s11090-025-10548-1",

language = "English",

journal = "Plasma Chemistry and Plasma Processing",

issn = "0272-4324",

publisher = "Springer",

}

TY - JOUR

T1 - Plasma-Assisted Non-Oxidative Coupling of Methane

T2 - Effects of Bead Size Distribution and Operating Pressure in a Co-axial DBD

AU - Larsen, T. S.

AU - Andersen, J. A.

AU - Fateev, A.

AU - Østberg, M.

AU - Morais, E.

AU - Bogaerts, A.

AU - Jensen, A. D.

PY - 2025

Y1 - 2025

N2 - A co-axial packed-bed DBD reactor was used to conduct plasma-assisted non-oxidative coupling of methane (NOCM) utilizing glass beads as packing material at a fixed plasma power of 30 W. The influence on NOCM of five different bead size distributions (2000–5000 µm, 900–1100 µm, 425–600 µm, 212–300 µm, 150–212 µm) and operating pressure (1.2 bar, 1.7 bar) was investigated. The observed products consist of a mixture of saturated and unsaturated C2–C5 hydrocarbons. The conversion of methane decreased from 8.5 to 3.7% with decreasing bead size, while the selectivity towards unsaturated C2 compounds increased from 16 to 50% with decreasing bead size. These reactor performance variations are associated with the transitional plasma dynamics and degree of partial discharging, as determined by characterization of non-ideal charge–voltage plots for the five tested glass bead sizes.

AB - A co-axial packed-bed DBD reactor was used to conduct plasma-assisted non-oxidative coupling of methane (NOCM) utilizing glass beads as packing material at a fixed plasma power of 30 W. The influence on NOCM of five different bead size distributions (2000–5000 µm, 900–1100 µm, 425–600 µm, 212–300 µm, 150–212 µm) and operating pressure (1.2 bar, 1.7 bar) was investigated. The observed products consist of a mixture of saturated and unsaturated C2–C5 hydrocarbons. The conversion of methane decreased from 8.5 to 3.7% with decreasing bead size, while the selectivity towards unsaturated C2 compounds increased from 16 to 50% with decreasing bead size. These reactor performance variations are associated with the transitional plasma dynamics and degree of partial discharging, as determined by characterization of non-ideal charge–voltage plots for the five tested glass bead sizes.

KW - Non-oxidative coupling of CH

KW - Non-thermal plasma

KW - Packed bed DBD reactor

KW - Partial discharging

KW - Plasma–packing interactions

U2 - 10.1007/s11090-025-10548-1

DO - 10.1007/s11090-025-10548-1

M3 - Journal article

AN - SCOPUS:85218709577

SN - 0272-4324

JO - Plasma Chemistry and Plasma Processing

JF - Plasma Chemistry and Plasma Processing

ER -

Plasma-Assisted Non-Oxidative Coupling of Methane: Effects of Bead Size Distribution and Operating Pressure in a Co-axial DBD

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Keywords

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