Manufacturing Process of Layered Double Hydroxide Using Iron and Steel Slag as a Raw Material

N. Murayama, Kai Moriyma, J. Shibata, Etsuro Udagawa
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Abstract

Syntheses of layered double hydroxides (LDHs) were carried out using acid leachates of various iron and steel slag as a raw material. The behaviors of precipitation and dissolution for various metal components in the leachates were investigated, by considering the material balance in the LDH production process from iron and steel slag. Removal tests of Cr(VI), B, As(III) and Se(IV) in dilute aqueous solution were conducted with the resulting LDHs. Metal components in the slag are mainly Ca, Mg, Al and Si. The slag leachates contain about 25% of Si component which may not exist in the hydroxide layer of resulting LDHs. The slag leachate with low Si concentration suitable for LDH synthesis can be obtained by controlling the acid leaching condition of slag successfully. According to the material balance in the LDH production process, it is found that only the Ca precipitation shows 15% or less and those of other metals such as Mg, Al and Fe are almost 100%. The LDHs synthesized from the slag leachate with low Si concentration have excellent removal ability for toxic anionic species and the ability is almost the same as that prepared from reagent. By considering the material balance of LDH production process, it is clarified that the decrease in Si concentration in the slag leachate contributes to the improvement of removal ability of the obtained LDHs.
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以钢渣为原料制备层状双氢氧化物的工艺
以各种钢渣酸浸出液为原料,进行了层状双氢氧化物的合成。考虑钢渣LDH生产过程中的物质平衡,研究了渗滤液中各种金属成分的沉淀和溶解行为。用所得LDHs对稀水溶液中的Cr(VI)、B、As(III)和Se(IV)进行了去除试验。渣中的金属成分主要为Ca、Mg、Al和Si。渣渗滤液含有约25%的Si成分,而Si成分可能不存在于所产生的LDHs的氢氧化物层中。通过控制渣的酸浸条件,成功地获得了适合LDH合成的低硅渣浸出液。根据LDH生产过程中的物料平衡,发现只有Ca的析出率在15%以下,其他金属如Mg、Al、Fe的析出率几乎为100%。由低硅渣渗滤液合成的LDHs对有毒阴离子具有良好的去除能力,与用试剂制备的LDHs去除能力基本相同。从LDH生产过程的物质平衡出发,阐明了渣渗滤液中Si浓度的降低有助于所得LDH去除能力的提高。
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