Study on adsorption of methylene blue by modified peanut shell: adsorption kinetics, thermodynamics, isotherm properties

IF 1.9 4区 工程技术 Q3 ENGINEERING, CHEMICAL Chemical Engineering Communications Pub Date : 2023-09-19 DOI:10.1080/00986445.2023.2255533
Qing-Zhou Zhai
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Abstract

AbstractIn order to study the adsorption effect of peanut shell as adsorbent on dye wastewater in industry, the optimum adsorption conditions of peanut shell for methylene blue were explored in this article. The decolorized peanut shell was activated by zinc chloride and the adsorption rate of methylene blue dye was improved. Through the research of different conditions such as pH value, contact time, adsorption temperature, initial dye concentration and adsorbent dosage, the optimal adsorption conditions of methylene blue dye were obtained. The adsorption effect achieved was the best at pH 10. Kinetics, thermodynamics, adsorption isotherm properties of the adsorption of methylene blue onto the peanut shell activated by zinc chloride were studied. The adsorption satisfied the Freundlich isothermal adsorption equation and the adsorption process was exothermic. The present adsorption system is a heterogeneous adsorption. The adsorption of methylene blue onto peanut shell accorded with a quasi-second-order adsorption kinetics. This adsorption was a physicochemical adsorption. Finally, the involved adsorption materials prepared were characterized by scanning electron microscopy, X-ray diffraction and infrared spectroscopy. This method can effectively adsorb the methylene blue pollutants in water and solves the problem of the environmental pollution caused by the direct discharge of dye wastewater, which has certain economic and social benefits.Keywords: Adsorptionisothermkinetic propertymethylene bluepeanutshellthermodynamic propertyzinc chloride modification Availability of data and materialsThe datasets used or analyzed during the current study are available from the corresponding author on reasonable request.Authors’ contributionQ.-Z. Zhai conceived and designed the experiments. The experiments were performed by Q.-Z. Zhai. Data was analyzed by Q.-Z. Zhai. The manuscript was written by Q.-Z. Zhai. The manuscript was reviewed and corrected by Q.-Z. Zhai.Consent for publicationAll authors have read this manuscript and consent for publication.Disclosure statementThe authors declare no competing interests.Additional informationFundingThe authors thank the financial support “Research on the Adsorption of Water and Soil Pollutants Heavy Metals and Harmful Dyes by Waste Tea and Peanut Shell” by the Natural Science Foundation of Jilin Provincial Science and Technology Department from the Science and Technology Development Program of Jilin Province, China (20220101096JC/611220683029/KYC-JC-XM-2022−111).
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改性花生壳对亚甲基蓝的吸附研究:吸附动力学、热力学和等温性质
摘要为了研究花生壳作为吸附剂对工业染料废水的吸附效果,探讨了花生壳对亚甲基蓝的最佳吸附条件。用氯化锌活化脱色花生壳,提高了亚甲基蓝染料的吸附率。通过对pH值、接触时间、吸附温度、染料初始浓度、吸附剂用量等不同条件的研究,得到了亚甲基蓝染料的最佳吸附条件。pH值为10时吸附效果最佳。研究了氯化锌活化花生壳吸附亚甲基蓝的动力学、热力学和吸附等温线性质。吸附符合Freundlich等温吸附方程,吸附过程为放热吸附。目前的吸附体系为非均相吸附。亚甲基蓝在花生壳上的吸附符合准二级吸附动力学。这种吸附是一种物理化学吸附。最后用扫描电镜、x射线衍射和红外光谱对所制备的吸附材料进行了表征。该方法能有效吸附水中的亚甲基蓝污染物,解决了染料废水直接排放造成的环境污染问题,具有一定的经济效益和社会效益。关键词:吸附,等温动力学性质,亚甲基蓝,花生壳,热力学性质,氯化锌改性,数据和材料的可用性,本研究中使用或分析的数据集,应合理要求,可从通讯作者处获得。作者的contributionQ.-Z。翟构思并设计了这些实验。实验由Q.-Z进行。翟。数据由Q.-Z分析。翟。手稿是q - z写的。翟。稿子由Q.-Z审阅和修改。翟。所有作者都已阅读本文并同意发表。披露声明作者声明无利益竞争。吉林省科技发展计划项目(20220101096JC/611220683029/KYC-JC-XM-2022−111)资助“废茶和花生壳对水土污染物重金属和有害染料的吸附研究”。
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来源期刊
Chemical Engineering Communications
Chemical Engineering Communications 工程技术-工程:化工
CiteScore
5.50
自引率
4.00%
发文量
80
审稿时长
6 months
期刊介绍: Chemical Engineering Communications provides a forum for the publication of manuscripts reporting on results of both basic and applied research in all areas of chemical engineering. The journal''s audience includes researchers and practitioners in academia, industry, and government. Chemical Engineering Communications publishes full-length research articles dealing with completed research projects on subjects such as experimentation (both techniques and data) and new theoretical models. Critical review papers reporting on the current state of the art in topical areas of chemical engineering are also welcome; submission of these is strongly encouraged.
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