International audienceIn a recent numerical paper (Nicoli et al. Combust. Sci. Technol. vol. 186, pp. 103-119; 2014) [1], a model of isobaric flame propagation in lean sprays has been proposed. The initial state of the monodisperse mists was schematized by a system of individual alkane droplets initially located at the nodes of a face-centered 2D-lattice, surrounded by a saturated mixture of alkane and air. In the present study, the previous model is complemented with an original chemical scheme that allows us to study the combustion of rich alkane/air mixtures
© 2019 The Combustion Institute Previous work on spray flames has shown that different propagation m...
The rapid growth of civil aviation and the pressing demand to reduce greenhouse gas emissions from t...
In this work, the flammable range of several hydrocarbons was predicted using a freely-propagating f...
International audienceIn a recent numerical paper (Nicoli et al. Combust. Sci. Technol. vol. 186, pp...
International audienceFlame propagation along a 1-D array or through a 2D-lattice of fuel droplets h...
International audienceThis study concerns two-phase flame propagating through a 2D-lattice of alkane...
AbstractSpray flames are known to exhibit amazing features in comparison with single-phase flames. T...
Numerical analyses of laminar flames propagating in mono-dispersed quiescent droplet mists are addre...
This article addresses the problem of spray vaporization and combustion in axisymmetric opposed-jet ...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
This work is focused on the study of flame stabilization and local extinction of a spray flame in an...
In typical liquid-fueled burners the fuel is injected as a high-velocity liquid jet that breaks up t...
There is a boost in the utilization of renewable sources of energy but because of high energy densit...
The present paper focuses on the large eddy simulation (LES) of the n-heptane and n-dodecane flames ...
This thesis presents an extensive study of turbulent air-blasted sprays aimed at advancing the curre...
© 2019 The Combustion Institute Previous work on spray flames has shown that different propagation m...
The rapid growth of civil aviation and the pressing demand to reduce greenhouse gas emissions from t...
In this work, the flammable range of several hydrocarbons was predicted using a freely-propagating f...
International audienceIn a recent numerical paper (Nicoli et al. Combust. Sci. Technol. vol. 186, pp...
International audienceFlame propagation along a 1-D array or through a 2D-lattice of fuel droplets h...
International audienceThis study concerns two-phase flame propagating through a 2D-lattice of alkane...
AbstractSpray flames are known to exhibit amazing features in comparison with single-phase flames. T...
Numerical analyses of laminar flames propagating in mono-dispersed quiescent droplet mists are addre...
This article addresses the problem of spray vaporization and combustion in axisymmetric opposed-jet ...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
This work is focused on the study of flame stabilization and local extinction of a spray flame in an...
In typical liquid-fueled burners the fuel is injected as a high-velocity liquid jet that breaks up t...
There is a boost in the utilization of renewable sources of energy but because of high energy densit...
The present paper focuses on the large eddy simulation (LES) of the n-heptane and n-dodecane flames ...
This thesis presents an extensive study of turbulent air-blasted sprays aimed at advancing the curre...
© 2019 The Combustion Institute Previous work on spray flames has shown that different propagation m...
The rapid growth of civil aviation and the pressing demand to reduce greenhouse gas emissions from t...
In this work, the flammable range of several hydrocarbons was predicted using a freely-propagating f...