Modeling studies for adsorption of phenol and co-pollutants onto granular activated carbon prepared from olive oil industrial waste

Advances in environmental science and technology Pub Date : 2018-01-01 DOI:10.22104/AET.2018.2226.1112

G. Sharaf, E. Abdel-Galil, Yasser El-eryan

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引用次数: 4

Abstract

Granular activated carbon (OSAC) which was derived from olive oil industrial solid waste was chemically activated with different concentrations of phosphoric acid. OSAC-materials were evaluated for their ability to remove phenol from aqueous solution in a batch technique. Adsorption isotherms were determined and modeled with five linear Langmuir forms, namely the Freundlich, Elovich, Temkin, Kiselev and Hill-de Boer models. The experimental data for the adsorption of phenol onto OSAM-materials were fitted well with the Langmuir-1 and 2, Freundlich, Kiselev and Hill-de Boer models. Adsorption was carried out on energetically different sites as localized monolayer adsorption and was an exothermic process. The uptake of phenol onto OSAC increased in the following order: OSAC-80%> OSAC-70%> OSAC-60%; the maximum adsorption capacities of phenol were found to be 114.416, 125.628 and 262.467 mg/g onto OSAC-60%, OSAC-70% and OSAC-80%, respectively. On the other hand, OSAC-80% was used as a good adsorbent for the removal of phenol and Cd2+ as co-pollutants from waste aqueous solutions. 80.25% of phenol and 50.66% of Cd2+ can be simultaneously removed by OSAC-80%.

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橄榄油工业废渣制备的颗粒活性炭吸附苯酚和共污染物的模拟研究

以橄榄油工业固体废弃物为原料，采用不同浓度的磷酸对颗粒活性炭进行了化学活化。用批处理技术对osac -材料去除水溶液中苯酚的能力进行了评价。采用Freundlich、Elovich、Temkin、Kiselev和Hill-de Boer五种线性Langmuir模型确定了吸附等温线并建立了模型。实验数据与Langmuir-1和2、Freundlich、Kiselev和Hill-de Boer模型吻合较好。吸附以局部单层吸附的方式在能量不同的位置进行，为放热过程。苯酚在OSAC上的吸收量依次为:OSAC-80%> OSAC-70%> OSAC-60%;苯酚在OSAC-60%、OSAC-70%和OSAC-80%上的最大吸附量分别为114.416、125.628和262.467 mg/g。另一方面，OSAC-80%作为一种良好的吸附剂用于去除废水中的共污染物苯酚和Cd2+。OSAC-80%可同时去除80.25%的苯酚和50.66%的Cd2+。

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Advances in environmental science and technology

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