Boris Guzhov, Laurent Cassayre, Antoine Barnabé, Nicolas Coppey, Béatrice Biscans
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引用次数: 0
摘要
这项工作的重点是通过湿法冶金处理从废镍氢电池中回收稀土元素(REEs = La、Ce、Nd、Pr)。将 Na2SO4 加入从工业废旧电池中制备的浸出液中,稀土元素以硫酸钠-镧系双硫酸盐的形式沉淀。其目的是更好地了解影响产品纯度的参数,并确定所涉及的相及其晶体结构。研究方法包括在 2 L 反应器中进行实验、热力学计算和产品表征。我们证实,在广泛的流体动力学条件下,都能获得较高的 REE 沉淀产率(>95%)。此外,我们还演示并量化了如何通过适当清洗产品来显著减少镍损失,同时保持对 REE 产品纯度的控制。最后,通过 X 射线衍射分析,我们确定 REEs 形成了一种固溶体,其化学式为 (Na0.9K0.1)(La0.65Ce0.24Pr0.04Nd0.07)(SO4)2-H2O,这是迄今为止尚未报道过的。
Selective Precipitation of Rare Earth Double Sulfate Salts from Industrial Ni–MH Battery Leachates: Impact of Downstream Processing on Product Quality
This work focuses on the recovery of rare earth elements (REEs = La, Ce, Nd, Pr) from spent nickel–metal hydride batteries by hydrometallurgical processing. The REEs were precipitated in the form of sodium-lanthanide double sulfate salts by adding Na2SO4 to a leach liquor prepared from industrially processed spent batteries. The objectives were to better understand the parameters driving the purity of the product and to identify the phases involved, as well as their crystallographic structure. The methodology included experiments performed in a 2 L reactor, thermodynamic calculations and product characterization. We confirmed that high REE precipitation yields (>95%) can be achieved under a wide range of hydrodynamic conditions. Furthermore, we demonstrated and quantified how appropriately washing the product allows for a significant reduction in nickel losses while maintaining control over REE product purity. Finally, using X-ray Diffraction analyses, it was established that REEs form a solid solution with a chemical formula (Na0.9K0.1)(La0.65Ce0.24Pr0.04Nd0.07)(SO4)2·H2O, which has not been reported so far.
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