A theoretical model is considered to predict the minimum ambient gas temperature at which fine iron particles can undergo thermal runaway–the ignition temperature. The model accounts for Knudsen transition transport effects, which become significant when the particle size is comparable to, or smaller than, the molecular mean free path of the surrounding gas. Two kinetic models for the high-temperature solid-phase oxidation of iron are analyzed. The first model (parabolic kinetics) considers the inhibiting effect of the iron oxide layers at the particle surface on the kinetic rate of oxidation, and a kinetic rate independent of the gaseous oxidizer concentration. The ignition temperature is solved as a function of particle size and initial o...
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 ...
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 ...
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
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 ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
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 ...
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 ...
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
Ignition of iron particles in an oxidizing environment marks the onset of self-sustained combustion....
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 ...
Molecular dynamics (MD) simulations are performed to investigate the thermal and mass accommodation ...
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 ...