Mechanism and Kinetic Studies of the Adsorption of Congo Red on Three Adsorbent Materials

Elie Sogbochi, G. Nonviho, Hervé K. J. Bokossa, Crépin Agodji, D. C. Sohounhloue
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Abstract

The enormous loss of agroforestry resources should attract the attention of the scientific community. A cultivated plant has more unused organs than those harvested by the grower. For an agroforestry resource to be put to good use, its parts, previously considered waste, must be exploited for profit. This is why this study examined the potential of the hulls of Lophira lanceolata, an agricultural waste product, as a precursor for adsorbent materials such as activated carbon and composite materials. The two adsorbent materials are obtained by impregnation with orthophosphoric acid in a 2:1 ratio, followed by activation and pyrolysis at 500°C. The use of these adsorbent materials and clay for the removal of Congo red has proved effective, with removal rates more than 90%. Adsorption on these materials is chemical in nature and occurs on energetically heterogeneous surfaces, which fits well with the pseudo-second-order kinetic model and Freundlich isotherms. The estimated qmax values for the Langmuir model are 145.0, 362.0, and 452.0 mg.g-1 for clay, composite material and activated carbon respectively. The hulls of Lophira lanceolata could be used to obtain various adsorbent materials for eliminating anionic dyes from industrial wastewater to comply with discharge standards.
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刚果红在三种吸附材料上的吸附机理和动力学研究
农林资源的巨大损失应引起科学界的关注。与种植者收获的器官相比,栽培植物有更多未使用的器官。要充分利用农林资源,就必须开发其以前被视为废物的部分,并从中获利。因此,本研究考察了农业废弃物 Lophira lanceolata 的壳作为活性炭和复合材料等吸附材料前体的潜力。这两种吸附材料是以 2:1 的比例用正磷酸浸渍,然后在 500°C 下活化和热解得到的。事实证明,使用这些吸附材料和粘土去除刚果红非常有效,去除率超过 90%。这些材料上的吸附属于化学吸附,发生在能量异质性表面上,与假二阶动力学模型和 Freundlich 等温线非常吻合。根据 Langmuir 模型,粘土、复合材料和活性炭的估计 qmax 值分别为 145.0、362.0 和 452.0 mg.g-1。Lophira lanceolata 的壳可用于获得各种吸附材料,以去除工业废水中的阴离子染料,从而达到排放标准。
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