Publication detail

Low Temperature Model for Premixed Methane Flame Combustion

FORMAN, M. KOK, J. JÍCHA, M.

Original Title

Low Temperature Model for Premixed Methane Flame Combustion

English Title

Low Temperature Model for Premixed Methane Flame Combustion

Type

conference paper

Language

en

Original Abstract

The paper describes the extension of the progress variable combustion model FIRST for methane flames to low temperature regimes. The reaction sources in low temperate regimes (under 1200 K) are computed with a global Arrhenius reaction derived from the ignition delay measurements available in the literature. The model was compared with the combustion model without extension to low temperatures and validated against data from the measurements.

English abstract

The paper describes the extension of the progress variable combustion model FIRST for methane flames to low temperature regimes. The reaction sources in low temperate regimes (under 1200 K) are computed with a global Arrhenius reaction derived from the ignition delay measurements available in the literature. The model was compared with the combustion model without extension to low temperatures and validated against data from the measurements.

Keywords

combustion, CFD, reaction kinetics, premixed flame

RIV year

2005

Released

22.06.2005

Publisher

Czech Technical University Prague

Location

Praha

ISBN

80-86786-04-8

Book

Proceedings of International Symposium on Transport Phenomena

Pages from

51

Pages to

108

Pages count

58

BibTex


@inproceedings{BUT21232,
  author="Matěj {Forman} and Jim. B.W. {Kok} and Miroslav {Jícha}",
  title="Low Temperature Model for Premixed Methane Flame Combustion",
  annote="The paper describes the extension of the progress variable combustion model FIRST for methane flames to low temperature regimes. The reaction sources in low temperate regimes (under 1200 K) are computed with a global Arrhenius reaction derived from the ignition delay measurements available in the literature. The model was compared with the combustion model without extension to low temperatures and validated against data from the measurements.",
  address="Czech Technical University Prague",
  booktitle="Proceedings of International Symposium on Transport Phenomena",
  chapter="21232",
  institution="Czech Technical University Prague",
  year="2005",
  month="june",
  pages="51",
  publisher="Czech Technical University Prague",
  type="conference paper"
}