In this work,the reduction behavior of vanadium–titanium sinters was studied under five different sets of conditions of pulverized coal injection with oxygen enrichment.The modified random pore model was established to analyze the reduction kinetics.The results show that the reduction rate of sinters was accelerated by an increase of CO and H_2 contents.Meanwhile,with the increase in CO and H_2 contents,the increasing range of the medium reduction index(MRE) of sinters decreased.The increasing oxygen enrichment ratio played a diminishing role in improving the reduction behavior of the sinters.The reducing process kinetic parameters were solved using the modified random role model.The results indicated that,with increasing oxygen enrichment,the contents of CO and H_2 in the reducing gas increased.The reduction activation energy of the sinters decreased to between 20.4 and 23.2 kJ/mol. In this work, the reduction behavior of vanadium-titanium sinters was studied under five different sets of conditions of pulverized coal injection with oxygen enrichment. The modified random pore model was established to analyze the reduction kinetics. The results show that the reduction rate of sinters was accelerated by an increase of CO and H_2 contents. Meanwhile, with the increase in CO and H_2 contents, the increasing range of the medium reduction index (MRE) of sinters decreased. increasing increasing oxygen enrichment ratio played a diminishing role in improving the reduction behavior of the sinters. reducing process kinetic parameters were solved using the modified random role model. The results indicated that, with increasing oxygen enrichment, the contents of CO and H_2 in the reducing gas increased. The reduction activation energy of the sinters decreased to between 20.4 and 23.2 kJ / mol.