方铅矿与微细粒方解石在矿物浮选分离中的异相凝聚机理研究

本研究发现微细粒方解石会影响方铅矿的浮选回收,试验研究表明在pH=9、丁基黄药用量为80 mg/L时方铅矿浮选效果最佳。但在此条件下,方铅矿与微细粒方解石的人工混合矿中,方铅矿的浮选受到了明显的抑制,浮选效果较差。针对这一现象分析并探究方铅矿与微细粒方解石之间的相互作用机理。通过浊度分析、扫描电子显微镜分析、能谱分析、ICP测量,XPS分析、Zeta电位测量等发现,方铅矿与微细粒方解石之间发生了异相凝聚。通过研究两者的相互作用机理发现,单一的方铅矿在试验所研究的pH范围内荷负电,未检测到其等电点,单一的方解石等电点pH约为8.5,当pH=9时单一的方解石与单一的方铅矿均荷负电,颗粒间表现的作用能为相互排斥,二者之间不会发生凝聚现象;但在方铅矿和方解石的人工混合矿中却发生了凝聚,其原因为矿浆中的方解石解离出一定数量的钙离子,钙离子通过水解作用生成羟基钙,羟基钙是导致异相凝聚的关键粒子,羟基钙荷正电,吸附在方铅矿的表面,从而改变方铅矿表面的Zeta电位,使得方解石和方铅矿表面电位相反,通过粒子之间的相互作用力使二者发生异相凝聚。这一新发现为浮选过程中脉石矿物的预抑制和科学的化学配比调整提供了参考。

用选矿方法回收钼尾矿中非金属矿物的研究现状

随着对钼市场需求量的增大,钼尾矿逐年聚积,弃用的钼尾矿不仅对生态环境造成潜在的隐患,也严重制约了企业及社会的经济发展。由于钼尾矿中含有大量碳酸盐和硅酸盐等,从中回收非金属矿物是矿产综合利用的一个重要环节,可缓解尾矿堆存问题。综合评述了钼尾矿的资源特点以及从钼尾矿综合回收非金属矿如方解石、白云石、云母、金红石等的生产工艺、研究现状及进展,提出了回收过程中存在的一些问题,同时也针对目前存在的问题提出了合理化建议。

Recovery of Zn, Pb, Fe and Si from a low-grade mining ore by sulfidation roasting-beneficiation-leaching processes

To recover Zn, Pb, Fe and Si from a low-grade mining ore in the Lanping basin, Yunnan Province, China, a novel technology using the roasting with pyrite and carbon followed by beneficiation and hydrochloric acid leaching was proposed. Firstly, several factors such as pyrite dosage, roasting temperature, carbon powder dosage, holding time and particle size affecting on the flotation performance of Zn(Pb) and magnetic separation performance of Fe were simultaneously examined and the optimum process parameters were determined. A flotation concentrate, containing 17.46% Zn and 3.93% Pb, was obtained, and the Zn and Pb recoveries were 86.04% and 69.08%, respectively. The obtained flotation tailing was concentrated by a low-intensity magnetic separator. The grade of iron increased from 5.45% to 43.45% and the recovery of iron reached 64.87%. Hydrochloric acid leaching was then carried out for the magnetic separation tailing and a raw quartz concentrate containing 81.05% SiO2 was obtained. To further interpret the sulfidation mechanism of smithsonite, surface morphology and component of the sample before and after reactions were characterized by XRD and EPMA-EDS. The aim was to achieve the comprehensive utilization of the low-grade mining ore.

方铅矿浮选及磨矿过程中电化学特征研究进展

方铅矿是一种主要的含铅矿物,具有半导体性质,其浮选涉及到电化学反应的过程。在电化学过程中发生电子转移、方铅矿表面氧化、pH变化、电位改变、药剂分子氧化及其与矿物表面作用等。本文全面分析了方铅矿磨矿及浮选电化学行为的各种影响因素,并对当前研究的重点和方向进行了探讨,如电化学研究应注重理论与实践相结合,根据方铅矿浮选的电化学特征,通过调节和控制矿浆电位、溶解氧和矿浆pH等参数条件,以改善浮选矿浆体系,优化浮选指标。此外,要改善矿山生态环境,尽量减少Ge、Hg、Tl等有毒有害元素的溶出。