Publication detail

Low Molecular Products Analysis of the Toluene Destruction in Gliding Arc Discharge

GROSSMANNOVÁ, H. KRČMA, F.

Original Title

Low Molecular Products Analysis of the Toluene Destruction in Gliding Arc Discharge

English Title

Low Molecular Products Analysis of the Toluene Destruction in Gliding Arc Discharge

Type

conference paper

Language

en

Original Abstract

A DC atmospheric pressure gliding discharge was applied to the removal of volatile organic compounds (VOC). For an input concentration of 66 ppm, a removal fraction of nearly 97 % was obtained at a speciffic energy density of 445 J/l, total air flow rate of 2,8 l/min, carrier gas composition 40 % of N_2 and 60 % O_2. Detected NO concentration reaches from 170 up to 630 ppm and NO_2 from 27 up to 72 ppm for different specific energy densities for an input concentration of 232 ppm.

English abstract

A DC atmospheric pressure gliding discharge was applied to the removal of volatile organic compounds (VOC). For an input concentration of 66 ppm, a removal fraction of nearly 97 % was obtained at a speciffic energy density of 445 J/l, total air flow rate of 2,8 l/min, carrier gas composition 40 % of N_2 and 60 % O_2. Detected NO concentration reaches from 170 up to 630 ppm and NO_2 from 27 up to 72 ppm for different specific energy densities for an input concentration of 232 ppm.

Keywords

electric discharge, volatile organic compounds, low molecular products

RIV year

2007

Released

20.01.2007

Publisher

UK Bratislava

Location

Bratislava

ISBN

978-80-89186-13-6

Book

Proceedings of 16th SAPP

Pages from

167

Pages to

168

Pages count

2

BibTex


@inproceedings{BUT22484,
  author="Hana {Grossmannová} and František {Krčma}",
  title="Low Molecular Products Analysis of the Toluene Destruction in Gliding Arc Discharge",
  annote="A DC atmospheric pressure gliding discharge was applied to the removal of volatile organic compounds (VOC). For an input concentration of 66 ppm, a removal fraction of nearly 97 % was obtained at a speciffic energy density of 445 J/l, total air flow rate of 2,8 l/min, carrier gas composition 40 % of N_2 and 60 % O_2. Detected NO concentration reaches from 170 up to 630 ppm and NO_2 from 27 up to 72 ppm for different specific energy densities for an input concentration of 232 ppm.",
  address="UK Bratislava",
  booktitle="Proceedings of 16th SAPP",
  chapter="22484",
  institution="UK Bratislava",
  year="2007",
  month="january",
  pages="167--168",
  publisher="UK Bratislava",
  type="conference paper"
}