硫酸钠焙烧工艺中的钒提取机制

Youngjae Kim, Hyunsik Park, Ye Wang, Zhiyuan Chen
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摘要

钒氧化还原液流电池(VRFB)解决了可再生能源间歇性和不可控性的特点,因此最近备受关注。因此,对钒氧化还原液流电池需求的增长将增加对钒的需求。本研究调查了从韩国钒钛磁铁矿中提取钒的焙烧工艺。研究了结合 Na2SO4 焙烧和水浸工艺的最佳焙烧条件和机制。研究了焙烧温度和 Na2SO4 混合比的影响,发现与 Na2SO4 混合比相比,焙烧温度的影响更为显著。通过改变 Na2SO4 混合比和焙烧温度,研究了其他杂质的浸出效率。X 射线衍射分析结果表明,在焙烧过程中没有发生明显的相变。此外,热阶段显微分析结果表明,焙烧温度高于软化温度,这意味着液态矿石和固态矿石之间没有发生反应。热力学计算、差示扫描量热法和挥发气体分析验证了硫化气体的形成。预计 V2O5、SO3 和 SO4 反应会形成水溶性 VOSO4 相。在 Na2SO4 焙烧过程中发生的气固反应对 V. V2O5 具有高选择性和高浸出效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Vanadium Extraction Mechanism in the Sodium Sulfate Roasting Process

Vanadium Extraction Mechanism in the Sodium Sulfate Roasting Process

Vanadium redox-flow batteries (VRFBs) have recently gained attention because they resolve the intermittent and uncontrollable characteristics of renewable energy sources. Consequently, the increasing demand for VRFBs will increase the demand for V. This study investigated a roasting process for V extraction from Korean vanadiferous titanomagnetite ores. The optimum roasting conditions and mechanisms were studied for the combination of Na2SO4 roasting and water-leaching processes. The effects of roasting temperature and mixing ratio of Na2SO4 were investigated, revealing the more prominent effect of roasting temperature compared with that Na2SO4 mixing ratio. The leaching efficiencies for other impurities were investigated by varying the Na2SO4 mixing ratio and roasting temperature. The X-ray-diffraction-analysis results indicated no notable phase change during the roasting process. Moreover, the hot-stage-microscope-analysis results demonstrated that the roasting temperature was higher than the softening temperature, implying no reaction between the liquidus and solid ore. The formation of sulfuric gas was verified by thermodynamic calculations, differential scanning calorimetry, and evolved gas analysis. The reaction of V2O5, SO3, and SO4 was expected to form a water-soluble VOSO4 phase. The gas–solid reaction in the Na2SO4 roasting process resulted in high selectivity and high leaching efficiency for V.

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