Effects of CO2 Addition on the Turbulent Flame Front Dynamics and Propagation Speeds of Methane/Air Mixtures

Christopher B. Reuter; Sang Hee Won; Yiguang Ju

doi:https://doi.org/10.1115/1.4040518

doi.org/10.1115/1.4040518

Effects of CO2 Addition on the Turbulent Flame Front Dynamics and Propagation Speeds of Methane/Air Mixtures

Christopher B. Reuter

,

,

Volume: 141, Issue: 1

Published: Nov 29, 2018

Abstract

Exhaust gas recirculation (EGR) is one of the most promising methods of improving the performance of power-generating gas turbines. CO2 is known to have the largest impact on flame behavior of any major exhaust species, but few studies have specified its thermal, kinetic, and transport effects on turbulent flames. Therefore, in this study, methane/air mixtures diluted with CO2 are experimentally investigated in a reactor-assisted turbulent slot...

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Paper Details

Title

Effects of CO2 Addition on the Turbulent Flame Front Dynamics and Propagation Speeds of Methane/Air Mixtures

DOI

doi.org/10.1115/1.4040518

Published Date

Nov 29, 2018

Volume

141

Issue

1

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