Journal ArticleDOI
A comparative study of the chemical kinetic characteristics of small methyl esters in diffusion flame extinction
Pascal Diévart,Sang Hee Won,Jing Gong,Stephen Dooley,Yiguang Ju +4 more
- Vol. 34, Iss: 1, pp 821-829
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TLDR
In this article, the diffusive extinction limits of a series of methyl ester flames, from methyl formate to methyl decanoate, have been measured in the counterflow configuration.Abstract:
The diffusive extinction limits of a series of methyl ester flames, from methyl formate to methyl decanoate, have been measured in the counterflow configuration. Kinetic and transport effects are decoupled by use of the transport-weighted enthalpy term and reveal that the smaller methyl esters (C2 to C4) exhibit unique behavior while methyl esters inclusive and larger than methyl butanoate exhibit similar global reactivity to that of the n-alkanes. In order to interpret the experimental observations, a previous kinetic model for methyl butanoate and methyl decanoate has been extended to encompass the oxidation of the smaller methyl esters. Model rate of production analyses highlight the chemical kinetic specificities of methyl formate, methyl ethanoate, and methyl propanoate, through distinctive fuel reaction channels in methanol elimination, methyl radical production, and H atom production respectively. The similarity of global reactivity among the larger methyl esters and n-alkanes is elucidated based on the formation of formaldehyde and ethylene, which drive indifferently the growth of the radical pool at high temperature, thus the flame oxidation rate is similar at the global level.read more
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Journal ArticleDOI
Plasma assisted combustion: Dynamics and chemistry
Yiguang Ju,Wenting Sun +1 more
TL;DR: A comprehensive overview of the progress and the gap in the knowledge of plasma assisted combustion in applications, chemistry, ignition and flame dynamics, experimental methods, diagnostics, kinetic modeling, and discharge control is provided in this paper.
Journal ArticleDOI
Advances and challenges in laminar flame experiments and implications for combustion chemistry
TL;DR: The state of the art and further challenges of combustion chemistry research in laminar flames are reviewed in this paper, where various methods considered in this review are the flat, low-pressure, burner-stabilized premixed flame for chemical speciation studies, and the stagnation, spherically expanding, and burner stabilised flames for determining the global flame properties.
Journal ArticleDOI
Dynamics of cool flames
TL;DR: In this paper, a brief review of low-temperature chemistry and classical studies of cool flames is presented, and the recent experimental and computational findings of cool flame in microchannels, microgravity droplet combustion, counterflow flames, and turbulent combustion environments are reviewed.
Journal ArticleDOI
A comparative study of n-propanol, propanal, acetone, and propane combustion in laminar flames
TL;DR: In this paper, the laminar flame speeds of C 3 oxygenated fuels ( n -propanol, propanal and acetone) and hydrocarbon (propane) were measured in a combustion bomb to compare combustion characteristics of C3 alcohol, aldehyde, ketone, and alkane.
Journal ArticleDOI
Oxidation of small alkyl esters in flames
TL;DR: In this paper, the oxidation characteristics of several small methyl and ethyl esters with carbon number less than six were investigated in laminar flames, and several detailed kinetic models were tested against the experimental data, and insight was provided into the high temperature combustion kinetics of the aforementioned fuels.
References
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CHEMKIN-III: A FORTRAN chemical kinetics package for the analysis of gas-phase chemical and plasma kinetics
TL;DR: This document is the user`s manual for the third-generation CHEMKIN package, which now has the capability to handle weakly ionized plasma chemistry, especially for application related to advanced semiconductor processing.
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Comprehensive H2/O2 kinetic model for high-pressure combustion
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ReportDOI
OPPDIF: A Fortran program for computing opposed-flow diffusion flames
TL;DR: OPPDIF is a Fortran program that computes the diffusion flame between two opposing nozzles, and the TWOPNT software solves the two-point boundary value problem for the steady-state form of the discretized equations.
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THERM: Thermodynamic property estimation for gas phase radicals and molecules
TL;DR: THERM as discussed by the authors is a computer code for an IBM PC/XT/AT or compatible which can be used to estimate, edit, or enter thermodynamic property data for gas phase radicals and molecules using Benson's group additivity method.
Journal ArticleDOI
Detailed chemical kinetic oxidation mechanism for a biodiesel surrogate
TL;DR: These model capabilities indicate that large n-alkanes can be good surrogates for large methyl esters and biodiesel fuels to predict overall reactivity, but some kinetic details, including early CO2 production from biod diesel fuels, can be predicted only by a detailed kinetic mechanism for a true methyl ester fuel.