合成医疗废水中碱性品红的高效去除及其在混合液中的竞争吸附

H. Ahmed, Kareem Salihi, S. Kaufhold, Bakhtyar K. Aziz, Musa Hama Radha, Lava Karim, Hevi Nooralddin
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引用次数: 4

摘要

Ziehl-Neelsen染色剂是碱性品红(BF),苯酚(Ph)和亚甲基蓝的混合物。它被用来染色分枝杆菌的细胞壁。本研究以苏莱曼尼亚市Gankawa天然粘土(GC)为原料,对合成废水中的碱性品红进行了高效去除,并考察了高浓度苯酚对碱性品红的影响。利用x射线衍射(XRD)、x射线荧光(XRF)、N2气体吸附分析仪和场发射扫描电镜(FESEM)对天然粘土进行了表征。粘土主要为方解石,蒙脱石含量低,伊利石含量低。吸附动力学表明平衡时间相对较快(60-70分钟)。二阶伪动力学模型较好地拟合了实验动力学数据。在本研究的实验浓度范围内,混合溶液初始pH的影响可以忽略不计。采用Freundlich和Langmuir吸附等温线模型对平衡实验数据进行了非线性回归拟合。动力学和等温线研究都指出了该过程的化学吸附机制。在混合物中,苯酚分子与BF分子竞争活性吸附位点,而BF对苯酚的吸附存在协同作用。GC作为一种天然丰富的廉价材料,对BF的吸附能力(287.0 mg g-1)优于所有天然材料和文献中发现的大多数合成或改性材料。
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Efficient Removal of Basic Fuchsin from Synthetic Medical Wastewater and Competitive Adsorption in the Mixture
The Ziehl-Neelsen stain is a mixture of Basic Fuchsin (BF), phenol (Ph), and methylene blue. It is used to stain the cell walls of Mycobacterium species. In this study, Basic Fuchsin was efficiently removed from synthetic wastewater using natural clay of Gankawa (GC) from Sulaimanyah city, and the effect of the presence of high concentrations of phenol in the adsorption mixture is demonstrated. In addition, X-ray diffraction (XRD), X-ray fluorescence (XRF), N2 gas adsorption analyzer, and field-emission scanning electron microscopy (FESEM) were used to characterize the natural clay. The clay was found to be mostly calcite, with a minor percentage of smectite, and contaminated with low percentages of illite. The adsorption kinetics show a relatively fast equilibration time (60-70 minutes). A second-order pseudokinetic model better fits the experimental kinetic data. The effect of the initial pH of the solution mixture was negligible at the experimental concentration range of the study. Freundlich and Langmuir’s adsorption isotherm models were applied to the equilibrium experimental data using nonlinear regression curve fitting. Both kinetics and isotherm studies point to a chemical adsorption mechanism for the process. For adsorption in the mixture, phenol molecules were found to compete with BF molecules for the active adsorption sites, while a synergetic effect of BF exists on phenol adsorption. As a naturally abundant cheap material, GC shows a superior adsorption capacity toward BF (287.0 mg g-1) over all natural materials and most of the synthetic or modified materials found in the literature.
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