期刊论文

Ding, De-Xin(dingdxzzz@163.com)

中文

中国有色金属学报

1004-0609

2017

27

1

145-154

10.19476/j.ysxb.1004.0609.2017.01.019

国家自然科学基金资助项目（51404141） 湖南省创新人才计划资助项目（2015RS4039） 中国博士后科学基金资助项目（2015M572255） 衡阳市科学技术发展计划项目（2014KS32）

本校为第一且通讯机构

针对低品位铀尾矿因脉石含量高、物相赋存状态复杂而造成的铀浸出率低的问题,提出添加辅助氧化剂破坏脉石结构而实现强化浸出铀的思路。采用单因素实验法对比常规酸浸和3种氧化剂(H_2O_2、MnO_2和Fe~(3+))强化酸浸对铀浸出率的影响。结果表明:当浸出温度、硫酸浓度和液固比分别为30 ℃、1 mol/L和20:1时,采用常规酸浸6 h后铀的浸出率仅为78%,而在相同的浸出条件下,强化酸浸1.5 h铀的浸出率可达到95%。浸出渣的XRD及SEM-EDS分析结果表明,H_2O_2及MnO_2均能破坏脉石晶体结构,减少颗粒团聚,但添加MnO_2后生成新的硅酸锰盐晶体,Fe~(3+)不能破坏脉石结构,但其氧化作用在一定程度上能加快铀的浸出。

In view of low extraction rate of uranium caused by high gangue content and complex occurrence state of phases existing in low-grade uranium tailings, adding suitable oxidants in leaching process to destroy the gangue crystal structure were proposed to enhance the uranium extraction. The effects of traditional acid leaching and intensified leaching with three oxidants (H2O2, MnO2and Fe3+) on uranium extraction were investigated using single-factor experiments. The results show that uranium extraction ratio is only 78% after 6 h in traditional leaching at temperature, sulfuric acid concentratio...