H₂-CO混合ガスによる酸化鉄の還元反応の速度解析

抄録

A lot of steel engineers researched various means to decrease reducing agents at a blast furnace in order to reduce CO₂ emissions. For example, injection of H₂, waste plastics and carbon neutral materials such as biomass into a blast furnace is better alternative. When iron oxide is reduced by H₂ gas, CO₂ don' t form. We have studied optimal reduction conditions of iron oxide. In this work, we focused on H₂-CO gas mixtures reduction of iron oxide. In order to prepare samples, reagent Fe₂O₃ was mixed with SiO₂ and CaO in the mass ratio of Fe₂O₃：SiO₂：CaO = 80：7.14：12.86. Then the mixture was pelletized by handrolling and sintered at 1220℃ (Sinter-A, a porous sample) or 1250℃ (Sinter-B, a relatively porous sample). The formed pellets were reduced from Fe₂O₃ to FeO at 800℃ and from FeO to Fe 1100℃. From weight loss curves of samples, chemical reaction rate content (k_c) and effective diffusion coefficient (D_e) in a product layer were calculated by using an unreacted core model. The values of k_c and D_e in H₂ reduction were much higher than those values in CO reduction. The particle size of the reduced Fe in H₂ reduction was smaller than that one in CO reduction.