Add to ORKGThe influence of chemical kinetics on the combustion of fuel droplets is studied by means of a theoretical model of the process which considers spherical symmetry and quasi-stationary conditions. Chemical kinetics is approximated by means of an overall reaction rate of the nth order. Results are expressed as a function of the product of the pressure to the n/2th order times the droplet radius. It is shown that there exists a minimum value of such product under which an individual droplet cannot sustain a flame. An experimental investigation was also carried out, by burning in air at variable pressure fuel droplets suspended of thin quarts fibres. The laws of variation of both flame and droplet diameter as functions of time were obtained as ...
The droplet simulations focus on the effects of droplet size variation on its combustion characteris...
The burning rate constant of the droplets of a liquid fuel solely characterized by the thermo-physic...
It is well established that the laminar burning rate plays an important role in turbulent combustion...
Supercritical combustion of droplets is studied by means of a physical model which assumes spherical...
The theory of the steady-state burning of a single spherically-symmetric liquid monopropellant dropl...
A simplified model for the process of steady burning of a stationary droplet of fuel in an oxidizin...
The burning of single, isolated drops of fuel in a quiescent oxidizing atmosphere has been investiga...
Theoretical and experimental results of an investigation on the combustion or decomposition of mo...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
Experiments have been performed in order to measure the mass rate of consumption of single drops of...
The simple quasi-steady analysis of the combustion of a liquid fuel droplet in an oxidising atmosphe...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
A finite reaction-rate model is compared to three commonly used flame-sheet models. The latter diffe...
A finite reaction-rate model is compared to three commonly used flame-sheet models. The latter diffe...
The droplet simulations focus on the effects of droplet size variation on its combustion characteris...
The droplet simulations focus on the effects of droplet size variation on its combustion characteris...
The burning rate constant of the droplets of a liquid fuel solely characterized by the thermo-physic...
It is well established that the laminar burning rate plays an important role in turbulent combustion...
Supercritical combustion of droplets is studied by means of a physical model which assumes spherical...
The theory of the steady-state burning of a single spherically-symmetric liquid monopropellant dropl...
A simplified model for the process of steady burning of a stationary droplet of fuel in an oxidizin...
The burning of single, isolated drops of fuel in a quiescent oxidizing atmosphere has been investiga...
Theoretical and experimental results of an investigation on the combustion or decomposition of mo...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
Experiments have been performed in order to measure the mass rate of consumption of single drops of...
The simple quasi-steady analysis of the combustion of a liquid fuel droplet in an oxidising atmosphe...
There are few experimental data of a fundamental nature that clearly demonstrate the similarities an...
A finite reaction-rate model is compared to three commonly used flame-sheet models. The latter diffe...
A finite reaction-rate model is compared to three commonly used flame-sheet models. The latter diffe...
The droplet simulations focus on the effects of droplet size variation on its combustion characteris...
The droplet simulations focus on the effects of droplet size variation on its combustion characteris...
The burning rate constant of the droplets of a liquid fuel solely characterized by the thermo-physic...
It is well established that the laminar burning rate plays an important role in turbulent combustion...