通过植物采矿从爱达荷州地表土壤中提取稀土元素

Kathryn Richardson, Amin Mirkouei, Kasia Duellman, Anthony Aylward, David Zirker, Eliezer Schwarz, Ying Sun
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引用次数: 0

摘要

要满足全球对稀土元素(REE)的需求,就必须采用环保、低排放的提取方法。在温室环境中,我们评估了四种植物(例如箭竹、黑茄、美洲金雀花和芸苔属)的稀土元素超积累能力,以及用生物炭或肥料改良富含稀土元素的土壤并用柠檬酸溶液浇灌的影响。采收的样本经过热解,产生的生物废渣经过酸消化和元素分析,以确定 REE 含量。用肥料和生物炭改良土壤提高了生物矿石的产量,而植物种类则解释了生物累积因子的最大变化。Phalaris arundinacea 的目标 REE(即铈、镧、钕、镨和钇)平均 REE 含量最高,为 27,940 ppm,总 REE 为 37,844 ppm。我们成功地从植物生物质中提取了富含 REE 的生物矿石,并确定土壤改良和植物种类将是设计和实施爱达荷州 REE 植物采矿作业的关键参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rare earth elements extraction from Idaho-sourced surface soil by phytomining
Environmentally-friendly and low emission extraction methods are needed to meet worldwide rare earth element (REE) demand. Within a greenhouse setting, we assessed the REE hyperaccumulation ability of four plant species (e.g., Phalaris arundinacea, Solanum nigrum, Phytolacca americana, and Brassica juncea) and the impact of amending REE-rich soil with biochar or fertilizer and watering with citric acid solution. Harvested samples were pyrolyzed, and the resulting bio-ores were acid-digested and underwent elemental analysis to determine REE content. Amending soil with fertilizer and biochar increased bio-ore production, while plant species explained most variation in bioaccumulation factor. Phalaris arundinacea achieved the highest average REE concentration of 27,940 ppm for targeted REEs (i.e., cerium, lanthanum, neodymium, praseodymium, and yttrium) and 37,844 ppm for total REEs. We successfully extracted REE-rich bio-ore from plant biomass and determined that soil amendment and plant species will be critical parameters in design and implementation of Idaho-based REE phytomining operations.
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