Dynamic Estequiometric Correction And Combustion Control In Sintering Ignition Hood Of Arcelormittal Tubarão

The sintering process begins at the ignition stage of the surface layer of the mixture to be sintered. This ignition is performed through the heat supplied by a furnace, called "Ignition Furnace", and this burn must have sufficient heat potential to start the agglomeration process. As a result of the horizontal movement and the flow of air passing through the material, this surface firing front is transported until reaching the lower zones of the bed, thus producing the sinter. The higher the calorific value of the fuel used, the more efficient (lower fuel consumption and higher temperature) is the surface burning, thus raising the mechanical strength of the product during the process. Due to variations in fuel quality, keeping the ignition temperature controlled becomes a challenge, so, in this work, a study on the combustion of coke oven gas (COG) was carried out, evaluating not only its stoichiometric but also the most adequate control strategy, in order to maintain the working temperature and still optimize the yield and quality of the sinter produced. Mathematical knowledge, automation, control and industrial combustion were used in order to achieve the expected results.