Abstract:Based on the hardest refractory stone coal containing vanadium from Guangxi, China, the leaching rate of vanadium under the condition of recirculating fluidized roasting and pressure leaching was studied. The results indicate that the leaching rate of vanadium of blank fluidized roasting is higher than that of the sodium treated one under the same acid-leaching condition. The systematic technical comparative research on roasting and leaching indicates that this stone coal is indeed the hardest refractory one because the mineral can only obtain the highest leaching rate of vanadium if it is treated by recirculating fluidized roasting and pressure leaching. Under the condition that the volume ratio of H₂SO₄ to HF is 1:1 and the mass fraction of MnO₂ addition is 3%, the best acid leaching requirement of the recirculating fluidized blank roasting sample is that the ratio of liquid to solid is 1:1, the leaching temperature is 150 ℃, and the leaching time is 6 h. The leaching rate of vanadium can be up to 98.11%. Meanwhile, the pressure leaching kinetic model, the leaching control step and the leaching apparent activation energy of the recirculating fluidized blank roasting sample were studied. The discharging problem of harmful gas like Cl₂ and HCl from sodium treated roasting can be avoided by using recirculating fluidized blank roasting. Based on the innovational application of the roasting reaction device, the exploration of experimental techniques will provide some references and judgments for the industrial utilization of the hardest refractory stone coal.

Key words: hardest refractory stone coal containing vanadium; recirculating fluidized roasting; pressure leaching; kinetic model