共查询到19条相似文献,搜索用时 140 毫秒
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由于湿法磷酸中Fe~(3+)、Ca~(2+)的存在会影响湿法磷酸及后续磷酸盐的正常生产及产品质量,研究了一种新型离子交换树脂(IER-FC)对湿法磷酸中的Fe~(3+)、Ca~(2+)的吸附特性,包括对Fe~(3+)、Ca~(2+)的荷载量,反应时间、反应温度对吸附净化效果的影响,对Fe~(3+)、Ca~(2+)的吸附选择性。结果表明,IER-FC对Fe~(3+)、Ca~(2+)载荷量分别为2.219、1.289 mg/g,Fe~(3+)、Ca~(2+)在10 min内达到吸附平衡,反应温度对净化效果的影响较小,对Ca~(2+)的吸附选择性高于Fe~(3+)。 相似文献
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离子筛在湿法磷酸净化工艺中的应用研究 总被引:1,自引:0,他引:1
合成了一种用于湿法磷酸净化的离子筛,实验表明该离子筛可在强酸性介质中很好地工作,连续运行未见吸附效果受影响,结合磷矿石预处理、浸出液预处理及离子筛吸附,有望获得较为优化的湿法磷酸净化工艺。 相似文献
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介绍湿法磷酸净化的工艺技术,300 t/a P2O5湿法磷酸中试装置的特点、中试的生产情况及结果分析,对中试生产中蒸馏浓缩工序存在的问题进行了探讨。 相似文献
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探讨利用M g2 与变色酸2R显色体系测定湿法磷酸中镁的可能性。结果表明,镁含量在0~80μg/100mL内符合比尔定律,方法检出限20μg/100 mL。标准工作曲线线性回归方程A=0.0030C 0.0013,相关系数r=0.99985。 相似文献
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对氨中和沉淀法脱除湿法磷酸中金属离子进行了实验室和中试研究。优化工艺条件为:氨与P_2O_5质量比15.08%~20.78%,反应温度88~95℃,反应时间0.5~1.0 h,净化磷酸澄清时间≥48 h。中试结果表明,所采用的流程是合理可行的,在一定程度上解决了磷矿品质下降和金属离子升高对磷酸生产及磷肥产品质量的影响。 相似文献
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The presence of iron, magnesium, and aluminum elements as the primary impurities in wet-process phosphoric acid (WPA) adversely affects the industrial phosphoric acid and subsequent phosphorus chemical products. This study aims to investigate the selectivity and competition mechanism of Sinco-430 cation exchange resin for Fe, Mg, and Al ions in phosphoric acid solution. By studying the effects of different process conditions on the removal efficiency, the suitable conditions for the static removal of metal ions from Fe-Mg, Al-Mg, and Fe-Al binary systems were determined: solid–liquid mass ratio (S/L) of 0.3, phosphoric acid concentration of 27.61 wt.%, system temperature of 50°C, and rotational speeds of 200, 400, and 200 rpm, respectively. By calculating the selectivity coefficients of the resin for metal ions under different experimental conditions and mutual replacement experiments, the semi-empirical formulas for the selectivity coefficients were derived and order of selectivity was determined as follows: Mg2+ > Fe2+ > Al3+. Visual MINTEQ 3.1 software and density functional theory (DFT) calculations demonstrated that at low pH, the main forms of Fe, Mg, and Al present in phosphoric acid were FeH2PO4+, Mg2+, and AlH2PO42+, respectively. This finding explained the differences in selectivity of the resin for Fe, Mg, and Al. The dynamic removal of metal ions from phosphoric acid was investigated. The order of metal ion selectivity of the resin by the dynamic method is the same as that of the static method, and the dynamic exchange behaviour was most consistent with the Yan model. 相似文献
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