J. Aguilar et al., SIMULATION OF IRON-ORE REDUCTION IN A FIXED-BED, Modelling and simulation in materials science and engineering, 3(2), 1995, pp. 131-147
A simulation of direct reduction in a fixed-bed process of iron ore is
presented. Simulation is done with a model which takes into account t
he bed characteristics, including the reaction kinetics, the thermal e
ffects, and the quality and flow of the reducing gas. It is considered
that the reactor is a cylinder with its wall made of layers of a refr
actory and an insulator; this reactor contains a bed of iron ore pelle
ts which is reduced under a flow of reducing gas in the longitudinal d
irection (along the cylinder). The finite-difference method is used to
solve simplified differential equations for description of gas-pellet
, gas-refractory and refractory-insulator-environment heat transfer, a
nd heat changes due to reaction inside the reactor. The simulation is
fitted by using reducibility tests in a laboratory and runs in a pilot
plant. It is found that, because of the nature of the process, it is
carried out almost fully in the transitory stage and that is why this
simulation is necessary.