Adsorption of tetracycline from an aqueous solution on a CaMgAl-layer double hydroxide/red mud composite: Kinetic, isotherm, and thermodynamic studies

Q1 Environmental Science
Zahraa Ali Hammood , Ahmed A. Mohammed
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Abstract

This study focused on CaMgAl layered double hydroxide (LDH) based nanocomposite synthesized by a co-precipitation method combined with red mud (RM). The prepared red mud-supported CaMgAl-LDH was characterized by powder X-ray diffraction patterns (XRD), Fourier transform infrared spectra (FTIR), Field-emission scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), and Brunauer-Emmett-Teller analysis (BET), then subsequently used to remove tetracycline (TEC) from an aqueous solution. The TEC maximum adsorption capacity of nanocomposite was 108.753 mg/g. The maximum removal efficiency of 96.91 % was reached under the optimum conditions: pH 6, agitation speed 150 rpm, dosage 0.4 g/100 ml, and initial concentration 70 mg/l with a contact time of 90 min. The experimental adsorption data were fitted well by the Langmuir isotherm model and pseudo second-order model well describe the kinetics of TEC adsorption onto CaMgAl-LDH/RM sites. The adsorption mechanisms were controlled by external mass transfer as well as intra-particle diffusion. The thermodynamic parameters (ΔG°, ΔS°, and ΔH°) indicated that the adsorption of TEC onto red mud-CaMgAl was spontaneous and exothermic in nature. Only a 27 % reduction in the prepared adsorbent′s removal efficiency was noted after six sequential regeneration cycles. This work demonstrates that red mud-supported CaMgAl-LDH offers a potentially efficient adsorbent for the removal of antibiotics from aqueous solution.

Abstract Image

钙镁铝层双氢氧化物/红泥复合材料对水溶液中四环素的吸附:动力学、等温线和热力学研究
本研究的重点是通过共沉淀法结合赤泥(RM)合成基于 CaMgAl 层状双氢氧化物(LDH)的纳米复合材料。通过粉末 X 射线衍射图谱 (XRD)、傅立叶变换红外光谱 (FTIR)、场发射扫描电子显微镜 (SEM)、能量色散 X 射线光谱 (EDS) 和 Brunauer-Emmett-Teller 分析 (BET) 对制备的红泥支撑 CaMgAl-LDH 进行了表征,随后将其用于去除水溶液中的四环素 (TEC)。纳米复合材料对四环素(TEC)的最大吸附量为 108.753 mg/g。在 pH 值为 6、搅拌速度为 150 rpm、用量为 0.4 g/100 ml、初始浓度为 70 mg/l、接触时间为 90 分钟的最佳条件下,最大去除率为 96.91%。实验吸附数据与 Langmuir 等温线模型拟合良好,伪二阶模型很好地描述了 TEC 在 CaMgAl-LDH/RM 位点上的吸附动力学。吸附机理受外部传质和颗粒内扩散的控制。热力学参数(ΔG°、ΔS° 和 ΔH°)表明,TEC 在赤泥-CaMgAl 上的吸附是自发和放热性质的。经过六个连续再生周期后,所制备吸附剂的去除效率仅降低了 27%。这项研究表明,红泥支撑的 CaMgAl-LDH 是一种从水溶液中去除抗生素的潜在高效吸附剂。
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来源期刊
Environmental Nanotechnology, Monitoring and Management
Environmental Nanotechnology, Monitoring and Management Environmental Science-Water Science and Technology
CiteScore
13.00
自引率
0.00%
发文量
132
审稿时长
48 days
期刊介绍: Environmental Nanotechnology, Monitoring and Management is a journal devoted to the publication of peer reviewed original research on environmental nanotechnologies, monitoring studies and management for water, soil , waste and human health samples. Critical review articles, short communications and scientific policy briefs are also welcome. The journal will include all environmental matrices except air. Nanomaterials were suggested as efficient cost-effective and environmental friendly alternative to existing treatment materials, from the standpoints of both resource conservation and environmental remediation. The journal aims to receive papers in the field of nanotechnology covering; Developments of new nanosorbents for: •Groundwater, drinking water and wastewater treatment •Remediation of contaminated sites •Assessment of novel nanotechnologies including sustainability and life cycle implications Monitoring and Management papers should cover the fields of: •Novel analytical methods applied to environmental and health samples •Fate and transport of pollutants in the environment •Case studies covering environmental monitoring and public health •Water and soil prevention and legislation •Industrial and hazardous waste- legislation, characterisation, management practices, minimization, treatment and disposal •Environmental management and remediation
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