镍钼矿选矿废水处理回用试验研究

对某镍钼矿选矿废水进行了回用试验研究。结果表明,镍钼矿选矿废水直接回用于浮选效果较差;废水经絮凝剂NHX沉降处理后,固体悬浮物含量由839.6 mg/L降为17.7 mg/L,COD也大幅下降。处理后废水回用对镍钼矿浮选指标影响不大,符合回用标准。

Al(OH)_(3)胶体、腐殖酸和碳酸铀酰在饱和多孔介质中的共迁移

探究了CO_(2)+O_(2)地浸采铀工艺中胶体对铀迁移行为的影响规律。以Al(OH)_(3)胶体、腐殖酸(HA)和碳酸铀酰(UC(Ⅵ))为研究对象,考察了pH=7.6、不同流速下,单一体系(Al(OH)_(3)胶体或UC(Ⅵ))、二元体系(Al(OH)_(3)-UC(Ⅵ))和三元体系(Al(OH)_(3)-UC(Ⅵ)-HA)在饱和石英砂介质中的迁移规律。结果表明,单一迁移体系中,流速更易影响Al(OH)_(3)的迁移效率,且随着流速增大,Al(OH)_(3)和UC(Ⅵ)迁移率显著增加。二元迁移体系中,UC(Ⅵ)和Al(OH)_(3)的迁移在流速5 mL/min时易受抑制,迁移率最小;UC(Ⅵ)和Al(OH)_(3)共存会互相抑制对方的迁移。三元迁移体系中,UC(Ⅵ)和Al(OH)_(3)的迁移基本不受流速影响;HA的存在显著促进了UC(Ⅵ)和Al(OH)_(3)的迁移。本研究为调控改善矿物胶体沉积、提高浸铀效果提供了科学依据。

SiO2胶体、介孔SiO2对低浓度铀的吸附作用机制研究

分别采用SiO2胶体和介孔SiO2(MSP)吸附水溶液中低浓度铀,探讨了溶液初始pH值、吸附时间、固液比等因素对吸附效果的影响。结果表明,当溶液中铀初始浓度为2 mg/L、pH=4时,SiO2胶体和MSP在7 min达到吸附平衡且对铀的吸附率分别在65%和98%以上;等温吸附拟合结果表明,SiO2胶体对铀酰离子的吸附并不符合单分子层吸附,MSP则表现出单层覆盖和多层吸附相结合的吸附模式;傅里叶红外光谱分析表明:2种材料主要是靠Si-O-Si、Si-OH基团吸附铀;用0.1 mol/L硝酸可迅速洗脱铀,洗脱效率大于95%。

难溶含铀碱渣氧化焙烧酸浸试验研究

为了回收难溶渣中的铀,对难溶渣进行了氧化焙烧预处理,研究了预处理工艺参数对难溶渣中铀浸出效果的影响。结果表明,难溶渣原样粒度-0.074 mm、焙烧温度1 000℃、焙烧时间2 h条件下氧化焙烧预处理,所得焙烧渣再经硝酸浸出,铀浸出率为91.65%、渣铀品位为0.192%,渣剩余率为78.86%。试验结果可为现场处理难溶渣提供技术指导。

硝酸介质中铀矿冶设备表面放射性污染的规律

为了掌握铀矿冶生产实践中常用设备材质经放射性污染后表面活度的变化规律,研究了不锈钢、有机玻璃、橡胶3种材质经不同浓度的硝酸铀酰溶液连续浸泡26d后,样品表面活度、表面形貌及铀的存在形式等变化特征。结果表明:在26d内,当铀溶液质量浓度为10.22mg/L时,3种材质表面活度随浸泡时间增加变化不显著,当溶液铀质量浓度分别为563.58mg/L、25.54g/L时,各材质表面活度值均随浸泡时间增加逐渐增大。此外,3种材质表面活度从大到小依次是橡胶>不锈钢>有机玻璃。样品表面活度的增加主要是由于样品被腐蚀,导致铀在样品表面的附着沉积引起,并且表面的铀主要以UO2(NO3)2·6H2O及少量UO3的形式存在。

Study on the Impact Factors of COD Throughput in Corncob Extract

[ Objectivel The study aims to discuss the impact factors of COD （chemical oxygen demand） throughput in corncob extract. [ Method ] Firstly, as the variations of the mass concentration of corncob, temperature, time and pH, the throughput of COD in corncob extract were analyzed respectively. Afterwards, through the orthogonal test, the best conditions for extracting organic matter from corncob were determined. [ Result] The single-factor tests showed that there was a linear relationship between the mass concentration of corncob and COD of corncob extract when the mass concentration of the corncob was lower than 50 g/L; COD of corncob extract was higher under acidic or alkaline conditions. The optimum con- ditions for extracting organic compounds from corncob were as follows： temperature was 35 ℃, mass concentration was 40 g/L, pH =3, and ex- tracting time was 3 hours; under this conditions, the mass of COD released from a unit mass of corncob reached 0.056 2 g. [ Conclusien] The re- search could decrease the treatment cost of wastewater from uranium mining in mines and make corncob more useful.