Zn recovery from steel mill EAF dusts: A two-step biotechnological approach

IF 6.4 Q1 ENVIRONMENTAL SCIENCES

Resources, conservation & recycling advances Pub Date : 2025-07-16 DOI:10.1016/j.rcradv.2025.200278

Rebeka Frueholz , Sabine Spiess , Jan Eisbacher-Lubensky , Clemens Habermaier , Georg M. Guebitz , Josephine Mueller , Marianne Haberbauer

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Abstract

The growing demand for recycling strategies intended for electric arc furnace (EAF) dusts to recover secondary raw materials calls for innovative approaches that align with environmentally compatible practices. For the recovery of Zn, biogenic sulfuric acid was produced utilizing A. thiooxidans in a reactor in a fed-batch mode. The acid was then used in leaching experiments endeavoring to determine optimal leaching parameters for an efficient Zn extraction while retaining Fe in the dust matrix. At 30 °C, 100 g L⁻¹ pulp density, and at a leaching duration of 10 min, a concentration of 30 g L⁻¹ of Zn equivalent to a leaching efficiency of 76.67 % was found in the leachate while only 0.02 % of the Fe went into solution, indicating a good separation of these two metals. To purify the leaching solution, 48 % Fe was precipitated by adjusting the pH to 3.8 using NaOH. The extraction of Zn from the leachate was then achieved using a microbial electrolysis cell (MEC) with a two-chamber H-cell setup, with the chambers being separated by a proton exchange membrane. The average Zn recovery from the leachate was 99.9 ± 0.1 % and a final Zn purity on the electrode of 99.2 % was achieved.

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从炼钢厂电炉粉尘中回收锌：两步生物技术方法

对电弧炉（EAF）粉尘回收二次原料的回收战略的需求不断增长，要求采用与环境相容的做法相一致的创新方法。为了回收锌，利用硫氧化铁在反应器中以进料间歇方式生产生物硫酸。然后将该酸用于浸出实验，努力确定最佳浸出参数，以有效提取锌，同时保留粉尘基质中的铁。在30°C、100 g L−1矿浆密度、10 min浸出时间条件下，浸出液中锌浓度为30 g L−1，浸出效率为76.67%，而铁只有0.02%进入溶液，两者分离效果良好。为了提纯浸出液，用NaOH调节pH为3.8，沉淀48%的铁。然后使用微生物电解池（MEC）从渗滤液中提取锌，该电解池具有两室h池设置，两室由质子交换膜分开。浸出液锌的平均回收率为99.9±0.1%，电极上锌的最终纯度为99.2%。

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