A new preparation method (reduction-decomposition process) for high purity SrCO3 was investigated, which mainly includes four processes: reduction, leaching, purification and precipitation. The affecting factors abo...A new preparation method (reduction-decomposition process) for high purity SrCO3 was investigated, which mainly includes four processes: reduction, leaching, purification and precipitation. The affecting factors about S2- behaviors in leaching process and the effects of variables on purity and particle sizes distribution of SrCO3 were analyzed theoretically and practically. It is concluded that with the increase of temperature or decrease of pH value in leaching process, the strontium recovery increases, but SrS decomposes and hydrogen sulphide (H2S) gas discharges. The purity of SrCO3 is dependent on dissolution-recrystallization times, for example, the purity of (SrCO3) is as high as 99.97% when it is recrystallized three times. Besides, the solution concentration of Sr(OH)2 and flow rate of CO2 have important effects on particle size distribution of SrCO3 particles, especially, the particle sizes of (SrCO3) meanly distribute in 0.11.0 μm when the flow rate of CO2 is about 2 000 mL/min and other parameters are invariable.展开更多
文摘A new preparation method (reduction-decomposition process) for high purity SrCO3 was investigated, which mainly includes four processes: reduction, leaching, purification and precipitation. The affecting factors about S2- behaviors in leaching process and the effects of variables on purity and particle sizes distribution of SrCO3 were analyzed theoretically and practically. It is concluded that with the increase of temperature or decrease of pH value in leaching process, the strontium recovery increases, but SrS decomposes and hydrogen sulphide (H2S) gas discharges. The purity of SrCO3 is dependent on dissolution-recrystallization times, for example, the purity of (SrCO3) is as high as 99.97% when it is recrystallized three times. Besides, the solution concentration of Sr(OH)2 and flow rate of CO2 have important effects on particle size distribution of SrCO3 particles, especially, the particle sizes of (SrCO3) meanly distribute in 0.11.0 μm when the flow rate of CO2 is about 2 000 mL/min and other parameters are invariable.