Kinetic modeling of biosorption for hydrocarbons removal from wastewater using modified logistic equation

Journal of Geotechnology and Energy Pub Date : 2021-07-31 DOI:10.7494/jge.2021.38.1.4334

E. Knapik, J. Stopa

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Abstract

Application of raw and modified biomass to remove hydrocarbons from wastewater by adsorption is a common practice. A mathematical modeling of biosorption kinetics is a crucial step to optimize the remediation process. In the present study, kinetic studies were carried out to describe the sorption process of crude oil and water on waste sunflower pith. To increase sorption capacity the pith surface was modified with polydimethylsiloxane (PDMS) and hydrophobic SiO2 nanoparticles. The maximum sorption capacity of raw and modified material was 17.76 and 19.62 g/g for crude oil, respectively. The system reached the equilibrium stage after 24 hours. The uptake profiles have been described by the pseudo-first order rate equation and the pseudo-second order rate equation. The calculated results were compared with experimental data and their fit was poor. To predict biosorption kinetics a new mathematically efficient procedure based on modified logistic equation was developed. The results indicate that the sunflower pith has a great potential for the removal of crude oil from water phase as an eco-friendly process.

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基于修正logistic方程的废水中烃类生物吸附动力学建模

应用未经加工和改性的生物质通过吸附去除废水中的碳氢化合物是一种常见的做法。生物吸附动力学的数学建模是优化修复过程的关键步骤。本文对废葵花籽对原油和水的吸附过程进行了动力学研究。采用聚二甲基硅氧烷(PDMS)和疏水性SiO2纳米颗粒对其表面进行了改性，以提高其吸附能力。对原油的最大吸附量分别为17.76 g/g和19.62 g/g。24小时后系统达到平衡阶段。用拟一阶速率方程和拟二阶速率方程描述了吸收谱。计算结果与实验数据比较，拟合度较差。为了预测生物吸附动力学，提出了一种基于修正logistic方程的高效数学方法。结果表明，葵花籽作为一种环保型脱除水相原油的工艺具有很大的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Geotechnology and Energy

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