将 ZnO/NiO/高岭土纳米复合材料作为吸附剂/光催化剂用于混合水修复过程的评估

IF 5.7 3区 环境科学与生态学 Q1 WATER RESOURCES
Sarah A. Farag, M. Farouk, Nabila Shehata
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引用次数: 0

摘要

造成环境污染的有色污水对世界构成了威胁。本研究旨在评估氧化镍/氧化锌/高岭土纳米复合材料(NiO/ZnO/Ka)去除水中亚甲基蓝(MB)的效果。此外,它还旨在研究协同吸附/光催化降解(APCD)对甲基溴吸附能力的影响,以及非线性吸附等温线和动力学模型在分析该过程中的适用性。采用溶胶-凝胶法合成了 ZnO/Ka 和 NiO/ZnO/Ka 复合材料,并通过 X 射线衍射、傅立叶变换红外光谱、场发射扫描电子显微镜和布鲁瑙尔-艾美特-泰勒法对其进行了表征。利用吸附和 APCD 研究了 pH 值、甲基溴初始浓度、剂量、离子强度和温度等各种参数对甲基溴去除的影响。结果表明,在 pH 值为 10、粘土用量为 0.1 g/25 mL、甲基溴初始浓度为 200 mg/L、接触时间为 15 分钟、温度为 298 K 的最佳条件下,ZnO/Ka 对甲基溴的吸附容量最大(39.31 mg/g),去除率最高(78.61%);而 NiO/ZnO/Ka 对甲基溴的吸附容量最大(40.研究还发现,Temkin 和 Fritz-Schlunder 模型是最好的等温线模型,ZnO/Ka 和 NiO/ZnO/Ka 的 R2 分别为 1 和 0.842。此外,甲基溴在 ZnO/Ka 和 NiO/ZnO/Ka 上的吸附和光降解数据显示遵循伪一阶动力学模型和阿夫拉米动力学模型,ZnO/Ka 的 R2 为 0.897,NiO/ZnO/Ka 的 R2 为 0.986。总体而言,NiO/ZnO/Ka 对甲基溴的去除效果优于 ZnO/Ka,而且混合过程(吸附后的光降解过程)比单独吸附提高了甲基溴的总体去除效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of ZnO/NiO/kaolin nanocomposite as a sorbent/photocatalyst in hybrid water remediation process

The colored effluents causing environmental pollution pose a threat to the world. This study aims to assess the effectiveness of nickel oxide/zinc oxide/kaolin nanocomposite (NiO/ZnO/Ka) in removing methylene blue (MB) from water. Furthermore, it aims to examine the impact of synergetic adsorption/photocatalytic degradation (APCD) on the MB adsorption capacity as well as the suitability of the nonlinear adsorption isotherm and kinetic modeling in analyzing the process. The composites ZnO/Ka and NiO/ZnO/Ka were synthesized by the sol–gel method and were characterized by X-ray diffraction, Fourier transform infra-red, field emission scanning electron microscopy, and Brunauer–Emmett–Teller. The impacts of various parameters, such as pH, initial concentration of MB, dose, ionic strength, and temperature, on MB removal were studied using adsorption and APCD. The results showed that ZnO/Ka had the maximum adsorption capacity of MB (39.31 mg/g) and the maximum removal (78.61%) under optimal conditions of pH 10, clay dosage of 0.1 g/25 mL, initial concentration of MB 200 mg/L, contact time of 15 min, and 298 K, while NiO/ZnO/Ka showed the maximum adsorption capacity of MB (40.88 mg/g) and maximum removal (83.74%) at pH 7. It was also noticed that Temkin and Fritz–Schlunder models are the best isotherm models, with the highest R2 (1 and 0.842) for ZnO/Ka and NiO/ZnO/Ka, respectively. Moreover, the data of adsorption and photodegradation of MB onto ZnO/Ka and NiO/ZnO/Ka were revealed to follow pseudo-first-order and Avrami kinetic models with R2 (0.897) for ZnO/Ka and (0.986) for NiO/ZnO/Ka. Overall, NiO/ZnO/Ka showed better removal of MB than ZnO/Ka, and the hybrid process (photodegradation process after adsorption) enhanced the overall efficiency of MB removal than adsorption alone.

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来源期刊
Applied Water Science
Applied Water Science WATER RESOURCES-
CiteScore
9.90
自引率
3.60%
发文量
268
审稿时长
13 weeks
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