Preparation and optimization of low-cost red mud based zero-valent iron porous adsorbent by carbothermal reduction and Box-Behnken response method

Yufeng Du, Zhigang Yang, Linxu Xu, Xue Shen, Mingrui Shao, Feiyong Chen, Jin Wang
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Abstract

Red mud is a polluting waste product emitted from the aluminum production industry, which is a potential threat to the environment due to its high yield, strong alkalinity and complex elemental composition. The resource utilization of red mud has also attracted the attention of many researchers. In this study, red mud, straw and bentonite were used as raw materials to prepare granular porous zero valent iron (ZVI) adsorption reaction materials (Fe/GSBR) by carbothermal reduction. Straw was used as pore-forming and reducing agent, bentonite as binder, and red mud as substrate and iron source. The effects of preparation conditions on Fe/GSBR properties were investigated, including raw material ratio, sintering temperature, sintering time and straw particle size. The preparation conditions were optimized by response surface analysis, and the best preparation conditions were determined as follows: raw material ratio was 1:2, sintering temperature was 906℃, sintering time was 60 min, straw particle size was 100 mesh. The Fe/GSBR properties were characterized by SEM, EDS, XRD, and BET to demonstrate the porous and ZVI material. In addition, the regeneration properties and toxic leaching of the materials were evaluated to ensure the environmental safety during use.
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碳热还原- Box-Behnken响应法制备低成本赤泥基零价铁多孔吸附剂及优化
赤泥是铝生产行业排放的一种污染性废弃物,其产率高、碱度强、元素组成复杂,对环境构成潜在威胁。赤泥的资源化利用也引起了许多研究者的关注。本研究以赤泥、秸秆和膨润土为原料,采用碳热还原法制备颗粒状多孔零价铁(ZVI)吸附反应材料(Fe/GSBR)。以秸秆为成孔还原剂,膨润土为粘结剂,赤泥为底物和铁源。考察了原料配比、烧结温度、烧结时间、秸秆粒度等条件对Fe/GSBR性能的影响。通过响应面分析对制备条件进行优化,确定最佳制备条件为:原料比为1:2,烧结温度为906℃,烧结时间为60 min,秸秆粒度为100目。通过SEM、EDS、XRD、BET等表征了Fe/GSBR材料的多孔性和ZVI性能。此外,还对材料的再生性能和毒性浸出进行了评价,以确保使用过程中的环境安全。
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