Selective leaching of vanadium from V-Ti magnetite concentrates by pellet calcification roasting-H_(2)SO_(4) leaching process

A novel method of pellet calcification roasting-H_(2)SO_(4) leaching was proposed to efficiently separate and extract vanadium(V)from vanadium-titanium(V-Ti)magnetite concentrates.The leaching rate of V is as high as 88.98%,while the leaching rate of impurity iron is only 1.79%.Moreover,the leached pellets can be used as raw materials for blast furnace ironmaking after secondary roasting.X-ray photoelectron spectroscopy(XPS)and scanning electron microscopy with energy dispersive X-ray spectrometry(SEMEDS)analyses showed that V^(3+)was oxidized to V^(5+)after roasting at 1200℃,and V^(5+)was then leached by H_(2)SO_(4).X-ray diffraction(XRD)analyses and single factor experiment revealed a minimal amount of dissolved Fe_(2)O_(3) during H_(2)SO_(4) leaching.Therefore,a high separation degree of V and iron(Fe)from V-Ti magnetite concentrate was achieved through H_(2)SO_(4) leaching.Compared with the traditional roastingleaching process,this process can achieve a high selectivity of V and Fe,and has excellent prospects for industrial production.

白马钒钛精矿厚料层烧结技术研究

开展了白马钒钛精矿厚料层烧结实验并发现,随着烧结料层厚度增加,烧结矿的成品率和转鼓强度明显变好,利用系数和垂直烧结速度逐渐降低,通过优化物料结构和改善碱度的措施能够降低料层提高所带来的负面效益,将烧结利用系数从0.703 t/(m^2·h)提高至1.079 t/(m^2·h),烧结速度从11.11 mm/min提高至15.56 mm/min。白马钒钛精矿厚料层烧结工业应用表明:烧结料层从650 mm提高至715 mm后,烧结矿成品率提高1%,总返矿率降低1.395%,利用系数提高0.024 t/(m^2·h),固体燃耗降低1.759 kg/t。

攀枝花白马铁尾矿选钛工艺研究

借鉴以往试验成果,结合矿石性质,采用分级—一段磁选—螺旋溜槽重选—二段磁选—浮选新工艺对攀枝花白马选铁尾矿进行回收钛的选矿试验。经系统的条件试验,确定了各环节合适的工艺参数,最终获得了TiO2品位为46.23%、TiO2回收率为29.66%的钛精矿,同时可使原铁尾矿中残留的铁和硫得到综合回收。试验成果可作为白马铁矿建设钛选厂的技术依据。

白马铁矿选矿产物工艺矿物学研究

白马铁矿即将投入生产，针对所设计的流程最终精矿品位为57％TFe的实际，对风化矿比例为22．27％和50％的两种矿样，采用加细筛的阶段磨矿阶段分选流程，预先确定选出品位为56．5％-58％TFe的铁精矿，并对相应的尾矿进行工艺矿学研究，得出了一系列精、尾矿工艺矿物学数据和评价指标，从而较为切合实际地确定生产指标和评价产品质量。

CH895、CH880圆锥破碎机在白马选矿厂的应用

阐述了SANDVIK CH895、CH880圆锥破碎机与原有破碎机的特点及其在白马选矿厂的应用情况,并对其应用效果进行评价。

攀成钢10m^2竖炉使用白马钒钛精矿工业试验

本文主要介绍了白马钒钛精矿的物理化学性能及其在竖炉中的使用情况。白马钒钛精矿理化性能均优于密地钒钛精矿,使用白马钒钛精矿造球,膨润土配比有较大下降,且生球含粉少,强度上升,爆裂温度有所下降;炉内焙烧温度无明显变化,但炉内压力下降,冷却风量增加,炉内透气改善。

提质白马铁精矿工艺矿物学研究

以白马铁矿选矿厂提质前后的原矿、精矿和尾矿为研究对象,采用化学分析、AMICS等研究手段,对样品进行了多元素、矿物组成和单体解离度分析。研究了白马铁精矿品位提高到59%后,其钛磁铁矿、钛铁矿、脉石含量变化规律,钛磁铁矿单体解离度,Fe的主要损失,钛的变化规律等;钛磁铁矿中存在类质同相元素取代及客晶矿物,客晶矿物中的片状钛铁矿、细针状钛铁尖晶石呈微细粒嵌布的形式是导致提质白马铁精矿的Ti O2含量降低困难的主要原因。