Synergistic extraction of molybdenum and tungsten from low-grade tungsten-molybdenum ores with poor flotation separability using a sodium hypochlorite-trisodium phosphate-sodium hydroxide system

IF 5 2区工程技术 Q1 ENGINEERING, CHEMICAL

Minerals Engineering Pub Date : 2025-09-19 DOI:10.1016/j.mineng.2025.109760

Jian Kang , Linlin Tong , Qin Zhang , Han Zhao , Bin Xiong , Hongying Yang

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Abstract

The mineral composition of a low-grade tungsten-molybdenum ore (LGTMO) in Henan, China is very complex with a fine distribution size. Molybdenite, scheelite, powellite (CaMo_xW₁_-xO₄) in the ore cannot be separated by flotation. In this study, tungsten and molybdenum were extracted from LGTMO by hydrometallurgy with using a mixture of sodium hypochlorite (NaClO), trisodium phosphate (Na₃PO₄) and sodium hydroxide (NaOH). Through single-factor experiments, the highest molybdenum and tungsten leaching efficiencies of 91.14 % ± 1.30 % and 83.12 % ± 1.03 % were attained under the following conditions: a milling time of 20 min, a stirring speed of 350 r/min, a NaClO concentration of 0.072 mol/L, a Na₃PO₄ concentration of 0.15 mol/L, a NaOH concentration of 0.070 mol/L, a liquid–solid ratio of 3:1 at 80 °C for 240 min. Subsequently, the concentrations of NaOH, NaClO and Na₃PO₄ were optimized by the response surface methodology. The model predicted that the concentrations of NaOH, NaClO and Na₃PO₄ under the optimal experimental conditions were 0.070, 0.079 and 0.173 mol/L and the corresponding leaching efficiencies of Mo and WO₃ were 94.84 % and 86.74 %, respectively. Finally, SEM-EDS and XPS analyses were conducted to characterize the leaching residue. The formation of hydroxyapatite is the main reason for the incomplete leaching of tungsten and molybdenum. It covers the surface of the ore and thus limits the leaching of tungsten and molybdenum. This study provided an alternative for the efficient extraction of tungsten and molybdenum from LGTMO at lower reagent costs and temperatures.

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次氯钠-磷酸三钠-氢氧化钠体系协同萃取浮选可选性差的低品位钨钼矿石中的钼钨

河南某低品位钨钼矿石矿物组成复杂，分布粒度细小。矿石中的辉钼矿、白钨矿、粉钨矿（CaMoxW1-xO4）不能通过浮选分离。采用次氯酸钠（NaClO）、磷酸三钠（Na3PO4）和氢氧化钠（NaOH）混合溶剂湿法冶金从LGTMO中提取钨和钼。通过单因素试验，在磨矿时间为20 min、搅拌速度为350 r/min、nacl浓度为0.072 mol/L、Na3PO4浓度为0.15 mol/L、NaOH浓度为0.070 mol/L、液固比为3:1、温度为80℃、搅拌时间为240 min的条件下，钼和钨的浸出效率最高，分别为91.14%±1.30%和83.12%±1.03%。随后，利用响应面法优化了NaOH、NaClO和Na3PO4的浓度。模型预测，在最佳实验条件下，NaOH、NaClO和Na3PO4的浓度分别为0.070、0.079和0.173 mol/L， Mo和WO3的浸出效率分别为94.84%和86.74%。最后，通过SEM-EDS和XPS分析对浸出渣进行表征。羟基磷灰石的形成是钨钼浸出不完全的主要原因。它覆盖了矿石的表面，从而限制了钨和钼的浸出。该研究为在较低的试剂成本和温度下从LGTMO中高效提取钨和钼提供了一种替代方法。

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来源期刊

Minerals Engineering 工程技术-工程：化工

CiteScore

8.70

自引率

18.80%

发文量

519

审稿时长

81 days

期刊介绍： The purpose of the journal is to provide for the rapid publication of topical papers featuring the latest developments in the allied fields of mineral processing and extractive metallurgy. Its wide ranging coverage of research and practical (operating) topics includes physical separation methods, such as comminution, flotation concentration and dewatering, chemical methods such as bio-, hydro-, and electro-metallurgy, analytical techniques, process control, simulation and instrumentation, and mineralogical aspects of processing. Environmental issues, particularly those pertaining to sustainable development, will also be strongly covered.