墨西哥某氧化铜矿形态学特征对其酸浸试验的影响

通过化学选矿的方法研究了氧化铜矿形态学特征对铜浸出率的影响.以硫酸为浸出剂对某氧化铜矿的两种矿样进行酸浸试验.分别研究浸出剂用量、浸出时间以及料层厚度等影响因素.同时,采用扫描电子显微镜（SEM）观察原矿和尾矿中铜的形态学特征,即A矿样中铜矿物以薄膜的形式覆盖在脉石矿物表面;B矿样中铜矿物呈颗粒状与脉石矿物共生.酸浸试验结果表明：在相同的条件下,A矿样的铜浸出率要远高于B矿样.这是因为A矿样中铜矿物具有更大的比表面积,与硫酸的接触面大,反应更加充分.     

含碳酸盐脉石氧化铜矿的酸浸动力学

针对碳酸盐脉石对氧化铜矿酸浸动力学的影响进行探讨,研究了温度、酸度、矿石粒径、液固质量比、振荡速度等因素对含碳酸盐脉石氧化铜矿浸出的影响.结果表明,高温、高酸度、高液固质量比、小粒径和高振荡速度利于矿石的浸出,但碳酸盐脉石使得酸耗增加.考虑浸出成本确定合理的浸出条件为温度303 K、酸度35 g·L-1、矿石粒径0.074~0.125 mm、液固质量比3﹕1以及振荡速度180 r·min-1,浸出180 min后铜浸出率达53.6%.对浸出前后矿石表面形貌进行分析.结果显示碳酸盐脉石与酸反应后在矿石表面形成CaSO4·2H2 O沉淀,覆盖在颗粒表面,限制了矿石颗粒孔裂隙的发育.基于收缩未反应核模型对浸出动力学进行分析,发现碳酸盐脉石反应生成的沉淀阻碍了浸出反应,固体产物层扩散为浸出反应的控制步骤,反应的表观活化能为8.65 kJ·mol-1.     

基于不同粒级硫化铜矿石生物浸出的动力学

西藏甲玛地区的硫化铜矿石中含铜矿物以次生硫化铜矿物为主,且含量较低.采用氧化亚铁硫杆菌柱浸的方法对该矿石进行了生物浸出并研究了浸出动力学.基于不同粒级矿石,考察了粒级对铜浸出速率和浸出率的影响,并对浸出率与收缩核模型中的控制方程进行了拟合,确定了浸出过程的控速环节.试验结果表明,铜的浸出速率和浸出率随粒级的减小而增加.矿石表面形貌的SEM表明,浸出过程中矿石表面形成了包含黄钾铁矾的产物层,阻碍了浸出反应的进行.浸出动力学表明,该矿石的浸出过程符合收缩核模型,且浸出应主要受固体产物层内扩散控制.     

表面活性剂对钴矿石生物浸出的影响

研究了表面活性剂Tween-20,Tween-80与RB-1181对钴矿石生物浸出的影响.研究结果表明:添加表面活性剂使溶液与矿物的接触角显著减小,溶液对矿物表面的润湿作用增强;当质量浓度小于0.25 g/L时,表面活性剂对细菌的生长没有不利影响,添加表面活性剂试样与空白试样的亚铁离子均在72 h内被氧化完全;添加表面活性剂能够改变中间产物S的表面性质,促进细菌对S的氧化,加速矿物表面钝化层的溶解.进而矿物溶解加速,金属浸出率提高.在矿浆质量分数为10%,浸出温度为45℃,转速为180 r/min的条件下,加入表面活性剂后,钴浸出率可提高34%以上,铜浸出率提高15%以上,强化效果显著.     

含钴矿石摇瓶生物浸出比较试验的研究

对含钴矿石进行了工艺矿物学研究,明确了该含钴矿石的主要化学成分、粒度分布、矿物组成与嵌布特征.研究表明,硫化矿物主要为硫铜钴矿、黄铜矿、斑铜矿、辉铜矿、铜蓝、黄铁矿等.硫铜钴矿大多数以单体形式赋存,还有一部分为连生体.该含钴矿石含钴163%,铜105%,铁124%,硫1500%.用实验室驯化培养的具有良好抗钴性能的ZY101菌种对此含钴矿石进行摇瓶浸出实验研究,浸出结果表明:利用优良菌种浸出,钴浸出率达8571%.对比生物法与非生物的高铁溶液浸出,生物法钴浸出率提高6326%,耐钴ZY101浸矿菌浸钴效果显著.     

含砷低品位硫化铜矿生物柱浸实验

介绍了含砷低品位硫化铜矿柱浸实验研究方法、装置和结果.实验在八根有机玻璃柱浸系统中进行,考察了细菌种类、矿石粒度、供氧条件及浸出周期等参数对浸出率的影响.结果表明,在-12mm粒度下,采用Z08090-O菌株浸出,浸出167d,铜浸出率为80.75%.对含大量黄铁矿且耗酸脉石少的矿石,酸的累积降低了采用普通驯化浸矿菌的铜浸出率,但采用激光诱变获得的耐低pH值浸矿菌,能够保持高效的铜浸出率.     

赞比亚低品位难处理铜钴矿湿法冶金新工艺

以赞比亚某低品位难处理铜钴矿石为研究样本,采用全湿法冶金方法,开展新工艺研究.研究可知:矿石Cu,Co和S质量分数分别为1.270%,0.071%,0.022%.矿石中铜矿物主要为假孔雀石和少量的孔雀石.钴矿物主要为钴锰矿和水钴矿,在褐铁矿和黑云母晶体中有少量铜、钴,矿石中铜钴元素赋存状态极其复杂.最佳的浸出条件为粒度小于74μm的矿粒所占比例70%、浸出温度65℃、浸出时间4 h、矿浆质量分数30%、硫酸加入量55 kg·t-1.该条件下铜浸出率可达74.34%左右,钴浸出率可达43.32%左右.充分利用萃余液中的硫酸可降低酸耗,硫酸用量减少20%以上.在搅拌浸出过程中加入适量还原剂Na_2SO_3或FeSO_4,可将钴的浸出率从43%提高到78%.     

用废旧电路板酸浸-电沉积法回收金属铜

为了既保障环保又达到最佳铜回收效果的目的,以废旧电路板经过初步破碎分离,得到铜金属富集产品为研究对象,采用硫酸-双氧水浸出结合电沉积工艺回收物料中的铜。考察了铜浸出率与硫酸质量浓度、双氧水用量、浸出时间、液固比之间的关系,进行最佳金属浸出条件实验。结果表明：硫酸物质的量浓度为3.5 mol/L、浸出时间3 h、双氧水用量为20 mL、液固比10∶1条件下,铜金属浸出率最高可达到97.58%。电沉积尾液循环用以浸出铜,铜离子循环质量浓度不低于18 g/L,平均电流效率高于97.60%。在沉积温度40℃,阴极材料为T2紫铜,电流密度小于800 A/m2时,电流效率可以保持在97%以上。实验中铜回收率达到了97.58%。     

斑铜矿在酸性溶液中的浸出动力学行为

以斑铜矿为研究对象,在H₂SO₄酸性体系中,以NaS₂O₈为氧化剂,详细考察浸出时间、温度、矿物尺寸、液固比、H₂SO₄浓度和NaS₂O₈浓度对铜浸出率的影响.浸出行为表明,斑铜矿浸出动力学行为符合固体膜层的界面传质和扩散的混合控制,表观反应活化能为33.97 kJ/mol,浸出动力学方程为（ln(1-x)）/3-1+(1-x)^-1/3=k_mt.     

Computer modeling of high-pressure leaching process of nickel laterite by design of experiments and neural networks

Due to the complex chemical composition of nickel ores, the requests for the decrease of production costs, and the increase of nickel extraction in the existing depletion of high-grade sulfide ores around the world, computer modeling of nickel ore leaching process became a need and a challenge. In this paper, the design of experiments (DOE) theory was used to determine the optimal experimental design plan matrix based on the D optimality criterion. In the high-pressure sulfuric acid leaching (HPSAL) process for nickel laterite in "Rudjinci" ore in Serbia, the temperature, the sulfuric acid to ore ratio, the stirring speed, and the leaching time as the predictor variables, and the degree of nickel extraction as the response have been considered. To model the process, the multiple linear regression (MLR) and response surface method (RSM), together with the two-level and four-factor full factorial central composite design (CCD) plan, were used. The proposed regression models have not been proven adequate. Therefore, the artificial neural network (ANN) approach with the same experimental plan was used in order to reduce operational costs, give a better modeling accuracy, and provide a more successful process optimization. The model is based on the multi-layer neural networks with the back-propagation (BP) learning algorithm and the bipolar sigmoid activation function.     

硫酸中香蕉皮还原低品位锰矿的浸出行为及动力学模型

Manganese was leached from a low-grade manganese ore (LGMO) using banana peel as the reductant in a dilute sulfuric acid medium. The effects of banana peel amount, H₂SO₄ concentration, reaction temperature, and time on Mn leaching from the complex LGMO were studied. A leaching efficiency of ~98% was achieved at a leaching time of 2 h, banana peel amount of 4 g, leaching temperature of 120°C, manganese ore amount of 5 g, and sulfuric acid concentration of 15vol%. The phase, microstructural, and chemical analyses of LGMO samples before and after the leaching process confirmed the successful leaching of manganese. Furthermore, the leaching process followed the shrinking core model and the leaching rate was controlled by a surface chemical reaction (1 ? (1 ? x)1/3 = kt) mechanism with an apparent activation energy of 40.19 kJ·mol?1.     

铁闪锌矿在硫酸浸出过程中的电化学行为

为研究铁闪锌矿氧化浸出机理,以人工合成铁闪锌矿的悬浮矿浆为研究对象,采用三电极体系对其在硫酸浸出过程中的电化学行为进行了研究.结果表明:在铁闪锌矿浸出过程中有H2S中间产物生成;通氧、元素硫分散剂以及氯离子引入浸出体系均能明显促进铁闪锌矿的电化学氧化;随硫酸浓度升高,铁闪锌矿的电化学氧化不断加强而闪锌矿的电化学氧化受抑.与闪锌矿相比,铁闪锌矿更易发生电化学氧化.在铁闪锌矿硫酸浸出过程中,其电化学氧化作用不容忽视.     

Sulfuric acid leaching of high iron-bearing zinc calcine

Sulfuric acid leaching of high iron-bearing zinc calcine was investigated to assess the effects of sulfuric acid concentration, liquid-to-solid ratio, leaching time, leaching temperature, and the stirring speed on the leaching rates of zinc and iron. The results showed that the sulfuric acid concentration, liquid-to-solid ratio, leaching time, and leaching temperature strongly influenced the leaching of zinc and iron, whereas stirring speed had little influence. Zinc was mainly leached and the leaching rate of iron was low when the sulfuric acid concentration was less than 100 g/L. At sulfuric acid concentrations higher than 100 g/L, the leaching rate of iron increased quickly with increasing sulfuric acid concentration. This behavior is attributed to iron-bearing minerals such as zinc ferrite in zinc calcine dissolving at high temperatures and high sulfuric acid concentrations but not at low temperatures and low sulfuric acid concentrations.     

铜冶炼闪速炉烟尘氧化浸出与中和脱砷

介绍了废酸氧化浸出铜冶炼闪速炉烟尘和漫出液中和沉淀砷、铁过程。从化学热力学和实验2方面研究了浸出液中以砷酸铁形式中和沉淀脱砷过程，并对砷酸铁沉淀的稳定性进行了研究。研究结果表明：闪速炉烟尘中铜、砷和铁的浸出率分别可达到83％，92％和30％，浸出液中的铁和砷的量比n（Fe）／n（As）约为1．50；控制适当的pH值中和沉淀砷、铁，可使铜存留于溶液中，而砷以砷酸铁形式进入固相中，从而达到铜、砷分离的目的；不稳定的砷酸铁沉淀物进一步转型后，则可作为无毒稳定渣丢弃。     

蛭石在低浓度盐酸和硫酸中的溶出性比较研究

蛭石作为三八面体层状硅酸盐矿物,由于其独特的层状结构被广泛应用于各领域．酸处理蛭石能提高蛭石的比表面积,改变层电荷数,达到增加表面活性官能团的目的．以新疆尉犁蛭石为原料,在低浓度盐酸和硫酸界面进行溶出性比较研究,对原料及酸浸后样品的物相、结构、微观形貌以及浸出液中各离子浓度进行表征分析．结果表明：在酸浓度较低时盐酸和硫酸对蛭石的酸蚀程度相当,在酸浓度稍微增加时硫酸对蛭石的酸蚀速度快于盐酸．两种酸的蛭石结构中各金属离子浸出的难易顺序一致,均为：层间物>八面体片>四面体片．Ca²⁺作为层间阳离子在酸浸前4h的溶出速率远大于八面体阳离子Mg²⁺和四面体阳离子Al³⁺,且层间物中Ca²⁺相比于K⁺更容易浸出．适当的酸处理可以提高蛭石的阳离子交换容量．本文对于蛭石的利用开发具有一定意义．     

酸化酸度对微生物浸铀的影响

通过对酸化起始酸度和浸出率的分析,初步探讨了酸化酸度与微生物浸铀的酸耗及铀的浸出率之间的关系。结果表明,较高的起始酸度可明显提高铀的浸出率。对于不同的矿石,应采取不同的起始酸度,但酸化的起始酸度不宜过低,否则对缩短浸出时间和提高浸出率不利,30～40g/L的硫酸作为起始酸度比较合适,如矿石粒度较大,应考虑用30g/L以上的硫酸起始酸化。     

Extracting copper from copper oxide ore by a zwitterionic reagent and dissolution kinetics

Sulfamic acid (SA), which possesses a zwitterionic structure, was applied as a leaching reagent for the first time for extracting copper from copper oxide ore. The effects of reaction time, temperature, particle size, reagent concentration, and stirring speed on this leaching were studied. The dissolution kinetics of malachite was illustrated with a three-dimensional diffusion model. A novel leaching effect of SA on malachite was eventually demonstrated. The leaching rate increased with decreasing particle size and increasing concentration, reaction temperature and stirring speed. The activation energy for SA leaching malachite was 33.23 kJ/mol. Furthermore, the effectiveness of SA as a new reagent for extracting copper from copper oxide ore was confirmed by experiment. This approach may provide a solution suitable for subsequent electrowinning. In addition, results reported herein may provide basic data that enable the leaching of other carbonate minerals of copper, zinc, cobalt and so on in an SA system.     

Use of high-resolution X-ray computed tomography and 3D image analysis to quantify mineral dissemination and pore space in oxide copper ore particles

Mineral dissemination and pore space distribution in ore particles are important features that influence heap leaching performance. To quantify the mineral dissemination and pore space distribution of an ore particle, a cylindrical copper oxide ore sample (φ4.6 mm×5.6 mm) was scanned using high-resolution X-ray computed tomography (HRXCT), a nondestructive imaging technology, at a spatial resolution of 4.85 μm. Combined with three-dimensional (3D) image analysis techniques, the main mineral phases and pore space were segmented and the volume fraction of each phase was calculated. In addition, the mass fraction of each mineral phase was estimated and the result was validated with that obtained using traditional techniques. Furthermore, the pore phase features, including the pore size distribution, pore surface area, pore fractal dimension, pore centerline, and the pore connectivity, were investigated quantitatively. The pore space analysis results indicate that the pore size distribution closely fits a log-normal distribution and that the pore space morphology is complicated, with a large surface area and low connectivity. This study demonstrates that the combination of HRXCT and 3D image analysis is an effective tool for acquiring 3D mineralogical and pore structural data.     

用硫酸氧化预处理从难处理金矿中提金的无害化工艺研究

探讨了硫酸作为氧化剂分解含砷难处理金矿的技术可行性,实验结果表明硫酸可以有效地氧化砷黄铁矿而实现金的单体解离,适宜的分解条件为：硫酸与矿粉重量比为３,采用机械搅拌,反应温度２４０～２６０℃,分解时间２～３ｈ,分解渣采用硫脲浸出时浸金率高于９５％浸金条件为：硫脲浓度１％,三价铁作氧化剂,氧化剂与络合剂比值为０．０４～０．０６,浸出时间６ｈ图１,表６,参８     

Study on mechanisms of different sulfuric acid leaching technologies of chromite

The extraction of chromate from chromite via the sulfuric acid leaching process has strong potential for practical use because it is a simple and environmentally friendly process. This paper aims to study the sulfuric acid leaching process using chromite as a raw material via either microwave irradiation or in the presence of an oxidizing agent. The results show that the main phases in Pakistan chromite are ferrichromspinel, chrompicotite, hortonolite, and silicate embedded around the spinel phases. Compared with the process with an oxidizing agent, the process involving microwaves has a higher leaching efficiency. When the mass fraction of sulfuric acid was 80% and the leaching time was 20 min, the efficiency could exceed 85%. In addition, the mechanisms of these two technologies fundamentally differ. When the leaching was processed in the presence of an oxidizing agent, the silicate was leached first and then expanded. By contrast, in the case of leaching under microwave irradiation, the chromite was dissolved layer by layer and numerous cracks appeared at the particle surface because of thermal shock. In addition, the silicate phase shrunk instead of expanding.