Abstract
This paper presents an integrated approach for SO2 reduction and energy conservation by recycling waste gas during the iron ore sintering process. We established a mathematical model for the sintering flue gas temperature (SDG-T) and SO2 content (SDG-SC), and analysed the influences of the raw materials (carbon and moisture contents) and operation parameters (sinter bed height and speed). Correspondingly, we develop a novel optimisation framework for the design of the sintering process. Using the proposed integrated approach along with a 360 m2 sinter from Anshan Iron and Steel Co., Ltd (An Steel) as an example, we have considered the SO2 captured by the waste heat resources during the sintering process. Finally, we compare our design approach with that of the conventional approach to verify the capability of our proposed approach in capturing SO2 using recycled waste gas.