A novel process of extracting niobium, yttrium,and cerium from a low-grade niobium-bearing ore by the roasting(NH4)2SO4-Na2SO4-H2SO4 system was experimentally studied. The influences of various factors,such as roasting temperature, roasting time, mass ratio of agents-to-ore and particle size fraction on the extraction of valuable metals were comprehensively investigated. It is found that the roasting Na2SO4-H2SO4 system is effective to extract the niobium, yttrium, and cerium. The obtained optimum conditions for the extraction of Nb, Y, and Ce are roasting temperature of 300 °C, roasting time of 3 h, mass ratio of Na2SO4:H2SO4:Ore of 0.5:1.0:1.0, and particle size fraction of-74 lm(~95 %). Under the optimum condition, the maximum recovery of Nb, Y, and Ce can reach90.53 %, 92.15 %, and 98.04 %, respectively. All the results generated from this study will provide the fundamentals for Nb, Y, and Ce extraction from a niobiumbearing ore with low-grade. A novel process of extracting niobium, yttrium, and cerium from a low-grade niobium-bearing ore by the roasting (NH4) 2SO4-Na2SO4-H2SO4 system was experimentally studied. The influences of various factors, such as roasting temperature, roasting time, mass ratio of agents-to-ore and particle size fraction on the extraction of valuable metals were comprehensively investigated. It is found that the roasting Na2SO4-H2SO4 system is effective to extract the niobium, yttrium, and cerium. Extraction of Nb, Y, and Ce are roasting temperature of 300 ° C, roasting time of 3 h, mass ratio of Na2SO4: H2SO4: Ore of 0.5: 1.0: 1.0, and particle size fraction of -74 lm Under the optimum condition, the maximum recovery of Nb, Y, and Ce can reach 90.53%, 92.15%, and 98.04%, respectively. All the results generated from this study will provide the fundamentals for Nb, Y, and Ce extraction from a niobiumbearing ore with low-grade.