Biosorptive Removal of Hexavalent Chromium by Rice Husk Ash and Silica from Aqueous Solution

chemistry and materials research Pub Date : 2021-01-01 DOI:10.7176/cmr/13-1-02

E. Aikhoje

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Abstract

Hexavalent chromium ion removal by adsorption using rice husk ash and silica prepared from rice husks obtained locally from rice mill as biosorbents was evaluated as low cost wastewater treatment in this study. Batch equilibrium isotherm experiments were performed as well as effect of dosage and initial chromate solution pH to determine the potentials of the sorbent to remove hexavalent chromate ion from synthetic fed wastewater. Equilibrium isotherm experimental data isotherms were tested with isotherm models (Langmuir, Freundlich and Tempkin models), being best represented by the Langmuir model. Optimum conditions were: dosage = 0.5 g / 200 ml at room temperature and pH o > 6. The equilibrium between adsorbate in the solution and on the adsorbent surface was practically achieved in 2 h. The monolayer sorption capacity was 67.45 mg/g for rice husk silica and 55.98 mg/g for rice husk ash. Estimation of energy of the sorption process revealed chemisorption as the prevailing means of interaction between the adsorbents and adsorbates moieties. The abundance and affordable (cheap) cost of rice husks justifies its use as a precursor in the preparation of rice husk ash and silica as effective adsorbents for chromium removal from industrial effluents. Graphical Abstract:

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稻壳灰和二氧化硅对六价铬的生物吸附去除研究

以稻壳灰和二氧化硅为生物吸附剂，吸附去除六价铬离子，是一种低成本的污水处理方法。通过间歇式平衡等温实验，考察了投加量和初始pH值的影响，确定了吸附剂对合成进水废水中六价铬酸盐离子的去除率。平衡等温线实验数据等温线采用等温线模型(Langmuir, Freundlich和Tempkin模型)进行检验，其中Langmuir模型最能代表平衡等温线。最佳条件为:用量= 0.5 g / 200 ml，室温，pH = 0 bbb6。在2 h内，溶液中的吸附质与吸附剂表面的吸附量基本达到平衡。稻壳二氧化硅的单层吸附量为67.45 mg/g，稻壳灰分的单层吸附量为55.98 mg/g。吸附过程的能量估计表明，化学吸附是吸附剂和吸附剂之间相互作用的主要方式。稻壳的丰富和可负担的(廉价)成本证明了将其用作制备稻壳灰和二氧化硅的前驱体，作为工业废水中除铬的有效吸附剂。图形化的简介:

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chemistry and materials research

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