Adsorption of Reactive Blue 13 from Dyeing Wastewater onto Mesoporous Carbon Xerogels

Polish Journal of Environmental Studies Pub Date : 2024-07-25 DOI:10.15244/pjoes/183565

Huiyun Lu, Jianjiong Zhu, Donglei Li, Jiahang Liu, Rui Yao, Min Yao

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Abstract

Carbon xerogel is a nano-scale adsorption material with abundant mesopores and large adsorption capacity. A series of mesoporous carbon xerogels (MCX) were synthesized in the process of polycondensation of resorcinol and formaldehyde using different resorcinol/sodium carbonate catalyst molar ratios (R/C = 100~3000). And the adsorption behavior of the MCX for the azo dye reactive blue 13 (RB13) from dyeing wastewater was investigated in this study. Results showed that variations in both specific surface area and pore size distribution of MCX were closely related to the amount of catalyst. The MCX exhibited maximal surface area, abundant mesoporosity, and highest adsorption capacity for RB13 when the molar ratio of R/C was 1000. The adsorption of RB13 by MCX1000 proceeded rapidly in the first 50 min and reached equilibrium in 180 min. The adsorption process was exothermic, spontaneous, and can be well fitted by the pseudo-second-order and Temkin models, with the maximum sorption capacity of 184.36 mg·g -1 . The adsorption of RB13 onto MCX was attributed to physicochemical adsorption. The main adsorption mechanisms of the MCX for RB13 were the electrostatic interaction, hydrogen bonding and van der Waals forces between dye molecules and functional groups, such as -OH, and -C-O, etc.

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介孔碳气凝胶对染色废水中活性蓝 13 的吸附作用

碳异凝胶是一种纳米级吸附材料，具有丰富的介孔和较大的吸附容量。本研究采用不同间苯二酚/碳酸钠催化剂摩尔比（R/C = 100~3000），在间苯二酚与甲醛缩聚过程中合成了一系列介孔碳异凝胶（MCX）。本研究还考察了 MCX 对染色废水中偶氮染料活性蓝 13（RB13）的吸附行为。结果表明，MCX 比表面积和孔径分布的变化与催化剂用量密切相关。当 R/C 摩尔比为 1000 时，MCX 的比表面积最大，中孔率最高，对 RB13 的吸附能力最强。MCX1000 对 RB13 的吸附在最初的 50 分钟内迅速进行，并在 180 分钟内达到平衡。吸附过程放热、自发，并能很好地与假二阶模型和 Temkin 模型拟合，最大吸附容量为 184.36 mg-g -1 。RB13 在 MCX 上的吸附属于物理化学吸附。MCX 对 RB13 的主要吸附机理是染料分子与 -OH 和 -C-O 等官能团之间的静电作用、氢键作用和范德华力作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Polish Journal of Environmental Studies

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