Exploration of haematite-loaded rice husk biochar as a low-cost nanosorbent to remove Cr (III) from the aqueous media

IF 1.3 4区环境科学与生态学 Q3 ECOLOGY

Chemistry and Ecology Pub Date : 2023-03-27 DOI:10.1080/02757540.2023.2188205

T. Iqbal, Fozia Batool, S. Iqbal

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引用次数: 0

Abstract

ABSTRACT In this study, the biochar of rice husk was modified to a nanosorbent upon loading with haematite for Cr (III) removal from aqueous solutions. Three adsorbents, rice husk, rice husk biochar and haematite-loaded rice husk biochar, were used for equilibrium adsorption studies. SEM and FTIR analysis revealed the presence of pores and various surface active sites on a nanomaterial, which were responsible for the adsorption of Cr (III). C–H, –O–H, C=O stretching vibrations were observed in characterised FTIR peaks. Modelling of adsorption isotherms indicated best fit for Freundlich isotherm with maximum Kf value of 12,218 and 39.5 for linear and non-linear nanomaterial experimental calculations, and positive n value in range of 1–10 for all forms of adsorbents, Dubinin–Radushkevich adsorption saturation capacity qs showed high readings of 9417 and 76.8 for haematite nanomaterial, Elovich isotherm favoured non-linear results in case of nanomaterial with increased Qm values 43.4–112.3 from raw form to nanosorbents and Temkin isotherm with. Kinetic and Thermodynamic results were also summarised. Constants k and h and Qe capacity were tabulated for Pseudo second order model with highest Qe in the range of 20.36–22.52 for haematite loaded biochar nanomaterial. Hence, haematite based rice husk biochar nanostructure was employed as an efficient adsorbent for uptake of chromium.

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赤铁矿负载稻壳生物炭作为低成本纳米吸附剂从水介质中去除Cr（III）的探索

摘要:本研究将稻壳生物炭经赤铁矿负载后改性为纳米吸附剂，用于去除水溶液中的Cr (III)。采用稻壳、稻壳生物炭和负载赤铁矿的稻壳生物炭三种吸附剂进行平衡吸附研究。扫描电镜(SEM)和红外光谱(FTIR)分析表明，纳米材料上存在孔隙和各种表面活性位点，这些活性位点负责吸附Cr (III)。在表征的FTIR峰中观察到C - h， -O-H, C=O的拉伸振动。模拟吸附等温线的结果表明，在线性和非线性纳米材料实验计算中，最适合Freundlich等温线，最大Kf值为12,218和39.5，所有形式的吸附剂的正n值在1-10范围内，Dubinin-Radushkevich吸附饱和容量qs在赤铁矿纳米材料中分别为9417和76.8。当纳米材料从原始形态到纳米吸附剂的Qm值增加43.4 ~ 112.3时，Elovich等温线有利于非线性结果;总结了动力学和热力学结果。拟二级模型的常数k、h和Qe容量均为表，其中赤铁矿负载的生物炭纳米材料的最高Qe在20.36 ~ 22.52之间。因此，以赤铁矿为基础的稻壳生物炭纳米结构被用作铬的高效吸附剂。

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来源期刊

Chemistry and Ecology 环境科学-环境科学

CiteScore

4.20

自引率

16.00%

发文量

审稿时长

3.7 months

期刊介绍： Chemistry and Ecology publishes original articles, short notes and occasional reviews on the relationship between chemistry and ecological processes. This journal reflects how chemical form and state, as well as other basic properties, are critical in their influence on biological systems and that understanding of the routes and dynamics of the transfer of materials through atmospheric, terrestrial and aquatic systems, and the associated effects, calls for an integrated treatment. Chemistry and Ecology will help promote the ecological assessment of a changing chemical environment and in the development of a better understanding of ecological functions.