AI Article Synopsis
- There is a demand for sustainable waste management methods to recover valuable elements from end-of-life materials, known as "secondary ores."
- The study focuses on recovering lanthanum (La) from waste nickel metal hydride (NiMH) battery leachate using an innovative aqueous biphasic system (ABS) process with a special copolymer.
- A three-step ABS process is developed that efficiently separates metals, ultimately recovering 62 grams of La with 94% purity per kilogram of battery waste, showcasing the potential for greener waste treatment methods.
Article Abstract
In a circular economy context, there is a growing need for more sustainable waste management options to recover elements from end-of-life materials. These "secondary ores" represent a source of critical elements that are often present in higher concentration compared to their primary ore. In this work, the recovery of lanthanum (La) from waste nickel metal hydride battery (NiMH) leachate is investigated using an aqueous biphasic system (ABS) process based on a pluronic triblock copolymer (L35). An initial screening is performed to determine the influence of the ABS phase forming salt anion and alizarin red extractant on the La extraction efficiency and selectivity. From these results, a three-step ABS process is developed, varying only the nature of the salt and requiring no additional extractant. In a first step, the ABS composed of L35 + thiocyanate ammoniun + HO efficiently extracts iron, manganese, and cobalt leaving La, cerium, and Ni in solution. Nickel is subsequently recovered by precipitation using dimethylglyoxime. Finally, La is separated from cerium using the L35 + ammonium nitrate + HO ABS, recovering 62 g of La with 94% purity per kilogram of black mass of NiMH battery. This work highlights the applicability of ABS for the treatment of raw and complex matrices, potentially allowing for a greener hydrometallurgical treatment of wastes.
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| http://dx.doi.org/10.1016/j.wasman.2021.02.038 | DOI Listing |
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