Progress in probability density function methods for turbulent reacting flows
DC Haworth - Progress in Energy and combustion Science, 2010 - Elsevier
Probability density function (PDF) methods offer compelling advantages for modeling
chemically reacting turbulent flows. In particular, they provide an elegant and effective …
chemically reacting turbulent flows. In particular, they provide an elegant and effective …
Mixing, transport and combustion in sprays
GM Faeth - Progress in energy and combustion science, 1987 - Elsevier
Recent advances concerning analysis of sprays and drop/turbulence interactions are
reviewed. Consideration is given to dilute sprays and related dilute dispersed flows, which …
reviewed. Consideration is given to dilute sprays and related dilute dispersed flows, which …
Numerical simulation of the interaction between turbulence and radiation in reactive flows
PJ Coelho - Progress in energy and combustion science, 2007 - Elsevier
The interaction between turbulence and radiation (TRI) in reactive flows has been
demonstrated experimentally, theoretically and numerically, and results from the highly non …
demonstrated experimentally, theoretically and numerically, and results from the highly non …
The importance of accurately modelling soot and radiation coupling in laminar and laboratory-scale turbulent diffusion flames
Ultrafine and highly light absorbing soot particles have been known to be harmful to human
health and a major climate forcer. Understanding the mechanisms of soot formation and …
health and a major climate forcer. Understanding the mechanisms of soot formation and …
Soot and mixture fraction in turbulent diffusion flames
Soot volume fraction measurements are made in turbulent ethylene diffusion flames and are
compared with predictions. The theoretical model is based on mixture fraction distributions …
compared with predictions. The theoretical model is based on mixture fraction distributions …
Flowfield modelling of soot formation at elevated pressure
JB Moss, CD Stewart, KJ Syed - Symposium (International) on Combustion, 1989 - Elsevier
A simplified two-equation model of soot formation is described which extends the laminar
flamelet approach to combustion chemistry modelling and thereby admits application to …
flamelet approach to combustion chemistry modelling and thereby admits application to …
The impact of radiative heat transfer in combustion processes and its modeling–with a focus on turbulent flames
Radiative heat transfer (RHT) is often the dominant mode of heat transfer in flames, fires,
and combustion systems and affects significantly temperature distributions directly and …
and combustion systems and affects significantly temperature distributions directly and …
Monte Carlo modeling of radiative transfer in a turbulent sooty flame
L Tessé, F Dupoirieux, J Taine - International journal of heat and mass …, 2004 - Elsevier
The calculation of radiative transfer within a sooty turbulent ethylene–air diffusion jet flame
has been carried out by using a Monte Carlo method and an accurate CK model for the …
has been carried out by using a Monte Carlo method and an accurate CK model for the …
Modelling of soot aerosol dynamics in turbulent flow
S Rigopoulos - Flow, Turbulence and Combustion, 2019 - Springer
Aerosol dynamics plays an important role in the modelling of soot formation in combustion
processes, as it is responsible for predicting the distribution of size and shape of soot …
processes, as it is responsible for predicting the distribution of size and shape of soot …
Influence of line pair selection on flame tomography using infrared absorption spectroscopy
We report the influence of absorption line selection on the tomographic results for high-
temperature flames by numerical and experimental methods. Different combinations of …
temperature flames by numerical and experimental methods. Different combinations of …