In this study, a turbulent non-premixed (diffusion) methane-air flame has been investigated computationally to analyze the influences of pressure and gravity on flame structure and sooting characteristics between 1 and 10 atm. The simulation has been conducted in a 2-D axisymmetric computational domain using the finite volume-based computational fluid dynamics (CFD) code. The interaction of turbulence and chemistry is modeled by considering the steady laminar flamelet model (SLFM) and the GRI Mech 3.0 chemical mechanism. The radiative heat transfer calculation is carried out by considering the discrete ordinate (DO) method and the weighted sum grey gas model (WSGGM). The semi-empirical Moss-Brookes model is considered to calculate soot. The...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...
A computational study (emphasizing the effects of oxygen enhancement, gravity and inverse burning on...
Control of soot production and oxidation, and reduction of the ensuing emissions from combustion pro...
Fully understanding soot formation in flames is critical to the development of practical combustion ...
Simulations of a laminar coflow methane/air diffusion flame at atmospheric pressure are conducted to...
In this study, we extended previous numerical and experimental investigations of an axisymmetric lam...
This article presents the results of computations on pilot-based turbulent methane/air co-flow diffu...
International audienceThe aim of this paper is to study the effect of radiative heat transfer on soo...
Several experimental studies have demonstrated that confined laminar diffusion flames established in...
Soot processes within flames fueled with hydrocarbons are important because they affect the durabili...
Most practical combustion processes, as well as fires and explosions, exhibit some characteristics o...
This paper presents a numerical and experimental study on the structure and soot formation of atmosp...
International audienceLaminar nitrogen-diluted n-heptane diffusion flames burning in coflow air were...
An experimental study was conducted using axisymmetric co-flow laminar diffusion flames of methane-a...
M.S. University of Hawaii at Manoa 2012.Includes bibliographical references.Soot, which is a byprodu...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...
A computational study (emphasizing the effects of oxygen enhancement, gravity and inverse burning on...
Control of soot production and oxidation, and reduction of the ensuing emissions from combustion pro...
Fully understanding soot formation in flames is critical to the development of practical combustion ...
Simulations of a laminar coflow methane/air diffusion flame at atmospheric pressure are conducted to...
In this study, we extended previous numerical and experimental investigations of an axisymmetric lam...
This article presents the results of computations on pilot-based turbulent methane/air co-flow diffu...
International audienceThe aim of this paper is to study the effect of radiative heat transfer on soo...
Several experimental studies have demonstrated that confined laminar diffusion flames established in...
Soot processes within flames fueled with hydrocarbons are important because they affect the durabili...
Most practical combustion processes, as well as fires and explosions, exhibit some characteristics o...
This paper presents a numerical and experimental study on the structure and soot formation of atmosp...
International audienceLaminar nitrogen-diluted n-heptane diffusion flames burning in coflow air were...
An experimental study was conducted using axisymmetric co-flow laminar diffusion flames of methane-a...
M.S. University of Hawaii at Manoa 2012.Includes bibliographical references.Soot, which is a byprodu...
The structure and soot properties of round laminar jet hydrocarbon diffusion flames burning in air w...
A computational study (emphasizing the effects of oxygen enhancement, gravity and inverse burning on...
Control of soot production and oxidation, and reduction of the ensuing emissions from combustion pro...