Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation coefficients (TAC and MAC, respectively) for the combination of iron(-oxide) and air. The obtained values of TAC and MAC are then used in a point-particle Knudsen model to investigate the effect of chemisorption and the Knudsen transition regime on the combustion behavior of (fine) iron particles. The thermal accommodation for the interactions of Fe with N 2 and Fe xO y with O 2 is investigated for different surface temperatures, while the mass accommodation coefficient for iron(-oxide) with oxygen is investigated for different initial oxidation stages Z O, which represents the molar ratio of O/(O+Fe), and different surface temperatures. The ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
Following the ignition and solid-to-liquid phase transition of a fine (on the order of 10–100 µm in ...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...
We present a numerical study of the combustion of single iron particles in an O 2-N 2 atmosphere. By...