纺织染料(黄豆酸)在毛豆上生物吸附的平衡、动力学和热力学研究

G. Henini, Y. Laidani, F. Souahi, A. Labbaci, S. Hanini
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引用次数: 1

摘要

环境污染是当今社会面临的一个主要问题。由于技术的迅速发展,工业、农业和生活垃圾被排放到几个接收器中。一般来说,这种排放被直接排放到最近的水源,如河流、湖泊和海洋。虽然发展和废物产生的速度不可能减少,但控制和处理废物的努力正在适当地增加。纺织工业的废水在全世界都是一个严重的问题。它们含有不同类型的合成染料,就所排放的染料量和流出物成分而言,已知这些染料是环境污染的主要来源。从环保的角度来看,合成染料的去除是一个值得关注的问题。在几种化学和物理方法中,吸附是一种很有前途的技术,因为与其他在变色过程中的应用相比,它易于使用和成本低,特别是如果吸附剂便宜且容易获得。本研究的重点是评估毛竹(BE)去除水溶液中合成染料黄豆酸(YB)的潜力。这里得到的结果可以转移到具有类似化学结构的其他染料上。生物吸附研究在不同的参数下进行,如质量吸附剂颗粒、pH、接触时间、初始染料浓度和温度。采用拟一阶和拟二阶动力学模型测试了该材料(BE)的生物吸附动力学数据。热力学参数包括吉布斯自由能ΔG、焓ΔH和熵ΔS,表明BE对YB的吸附是可行的、自发的、吸热的。平衡数据采用Langmuir、Freundlich、Elovich和Temkin等温模型进行分析。实验结果表明,随着生物吸附剂质量的增加,生物吸附率增加(0.25 g: 12 mg/g;1.5 g: 47.44 mg/g)。YB在pH值为2左右的吸附量最大。平衡吸收随溶液中初始染料浓度的增加而增加(c0 = 120 mg/l;Q = 35.97 mg/g)。生物吸附动力学数据符合拟二级动力学模型。Langmuir模型拟合最佳,相关系数高(r2 > 0.998),对YB的最大单层吸附量为35.97 mg/g。
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Equilibrium, Kinetic and Thermodynamic Studies of the Biosorption of Textile Dye (Yellow Bemacid) onto Brahea edulis
Environmental contamination is a major problem being faced by the society today. Industrial, agricultural, and domestic wastes, due to the rapid development in the technology, are discharged in the several receivers. Generally, this discharge is directed to the nearest water sources such as rivers, lakes, and seas. While the rates of development and waste production are not likely to diminish, efforts to control and dispose of wastes are appropriately rising. Wastewaters from textile industries represent a serious problem all over the world. They contain different types of synthetic dyes which are known to be a major source of environmental pollution in terms of both the volume of dye discharged and the effluent composition. From an environmental point of view, the removal of synthetic dyes is of great concern. Among several chemical and physical methods, adsorption is a promising technique due to the ease of use and low cost compared to other applications in the process of discoloration, especially if the adsorbent is inexpensive and readily available. The focus of the present study was to assess the potentiality of Brahea edulis (BE) for the removal of synthetic dye Yellow bemacid (YB) from aqueous solutions. The results obtained here may transfer to other dyes with a similar chemical structure. Biosorption studies were carried out under various parameters such as mass adsorbent particle, pH, contact time, initial dye concentration, and temperature. The biosorption kinetic data of the material (BE) was tested by the pseudo first-order and the pseudo-second-order kinetic models. Thermodynamic parameters including the Gibbs free energy ΔG, enthalpy ΔH, and entropy ΔS have revealed that the adsorption of YB on the BE is feasible, spontaneous, and endothermic. The equilibrium data were analyzed by using Langmuir, Freundlich, Elovich, and Temkin isotherm models. The experimental results show that the percentage of biosorption increases with an increase in the biosorbent mass (0.25 g: 12 mg/g; 1.5 g: 47.44 mg/g). The maximum biosorption occurred at around pH value of 2 for the YB. The equilibrium uptake was increased with an increase in the initial dye concentration in solution (C o = 120 mg/l; q = 35.97 mg/g). Biosorption kinetic data were properly fitted with the pseudo-second-order kinetic model. The best fit was obtained by the Langmuir model with high correlation coefficient (R 2 > 0.998) and a maximum monolayer adsorption capacity of 35.97 mg/g for YB.
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