The paper describes the physical and mathematical model of the ignition of a liquid fuel droplet suddenly immersed in a hot oxidizing medium. The model was solved numerically by the finite element method. The ignition lags in terms of ambient temperature, oxygen concentration and initial droplet diameter were computed. 1
Mathematical simulation of condensed material solid-phase ignition in the context of the in-situ hea...
In this study, we focused on a fuel reforming technology by applying ultrafine oxygen bubble as the ...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
It was proposed a mathematical model for burning the liquid fuel drop in a hot oxidizing environme...
It was proposed a mathematical model for burning the liquid fuel drop in a hot oxidizing environment...
The processes of heat and mass transfer accompanied by phase changes and chemical reactions are nume...
This work presents a mathematical model for the auto-ignition process of a single droplet of pure li...
In this study, the fundamental problem of the ignition of a kerosene single droplet in a quiescent m...
Forecasting heat and mass transfer model for the numerical investigation of liquid fuel ignition fea...
The spontaneous-ignition and ignition delays of liquid fuel droplets falling (i) on a heated surface...
[[abstract]]A simplified theoretical model has been developed for describing transient ignition far ...
The results of an experimental investigation of ignition liquid fuel (kerosene, diesel fuel) by the ...
This article is devoted to computer simulation of the atomization, combustion, and evaporation proce...
This study is focused on the heat and mass transfer in the complex process of ignition of diesel fue...
In this work we present and apply a mathematical model to simulate the auto-ignition of isolated fue...
Mathematical simulation of condensed material solid-phase ignition in the context of the in-situ hea...
In this study, we focused on a fuel reforming technology by applying ultrafine oxygen bubble as the ...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
It was proposed a mathematical model for burning the liquid fuel drop in a hot oxidizing environme...
It was proposed a mathematical model for burning the liquid fuel drop in a hot oxidizing environment...
The processes of heat and mass transfer accompanied by phase changes and chemical reactions are nume...
This work presents a mathematical model for the auto-ignition process of a single droplet of pure li...
In this study, the fundamental problem of the ignition of a kerosene single droplet in a quiescent m...
Forecasting heat and mass transfer model for the numerical investigation of liquid fuel ignition fea...
The spontaneous-ignition and ignition delays of liquid fuel droplets falling (i) on a heated surface...
[[abstract]]A simplified theoretical model has been developed for describing transient ignition far ...
The results of an experimental investigation of ignition liquid fuel (kerosene, diesel fuel) by the ...
This article is devoted to computer simulation of the atomization, combustion, and evaporation proce...
This study is focused on the heat and mass transfer in the complex process of ignition of diesel fue...
In this work we present and apply a mathematical model to simulate the auto-ignition of isolated fue...
Mathematical simulation of condensed material solid-phase ignition in the context of the in-situ hea...
In this study, we focused on a fuel reforming technology by applying ultrafine oxygen bubble as the ...
Molecular dynamics simulations are applied to model fuel droplet surrounded by air in a spatially an...
DOI
Add to ORKG