Novel cellulose/montmorillonite mesoporous composite beads for dye removal in single and binary systems

[Display omitted] •Novel fine mesoporous composite beads were prepared as green-based bioadsorbents.•Adsorption capacity of bioadsorbent toward dye increased with increasing of temperature for AO.•Single/binary adsorption systems and competitive adsorption were investigated.•Mass transfer and adsorp...

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Bibliographic Details
Published in:Bioresource technology 2019-08, Vol.286, p.121366-121366, Article 121366
Main Authors: Pan, Yuanfeng, Xie, Hualei, Liu, Haiyan, Cai, Pingxiong, Xiao, Huining
Format: Article
Language:English
Subjects:
Bagasse bleaching pulp
Binary adsorption
Dyes
Mesoporous composite beads
Montmorillonite
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Summary:[Display omitted] •Novel fine mesoporous composite beads were prepared as green-based bioadsorbents.•Adsorption capacity of bioadsorbent toward dye increased with increasing of temperature for AO.•Single/binary adsorption systems and competitive adsorption were investigated.•Mass transfer and adsorption mechanisms were well elucidated via fitting various models. Fine aminated cellulose/montmorillonite mesoporous composite beads (ACeMt) were prepared as green-based adsorbent via a novel approach utilizing ultra-fine calcium carbonate as a pore-forming agent to increase the porosity and specific surface area of ACeMt. The resulting bioadsorbent was characterized by means of SEM, FTIR and BET analysis and used for dye removal. Adsorption experimental data were fitted with various isotherm and kinetic models. The results indicated that chemical adsorption was the rate-limiting step. The maximum adsorption capacities of ACeMt, better described by Langmuir model, were much higher than those of conventional adsorbents, particularly for the removal of Auramine O dye (up to 1336.2 mg/g at 55 °C). The adsorptions at equilibrium were better correlated with Redlich-Peterson model and uncompetitive Langmuir isotherm model in single and binary system, respectively. Overall, ACeMt is a promising bioadsorbent and highly efficient in the removal of dyes for water clarification.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2019.121366