International Journal of Biological Macromolecules, ( ISI ), Volume (256), Year (2024-1)

Title : ( Reusable cellulose-based biosorbents for efficient iodine adsorption by economic microcrystalline cellulose production from walnut shell )

Authors: Alireza Chackoshian khorasani , Paria Razavi Satvati ,

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Abstract

Sustainable management of walnut shell (WS) for the extraction of cellulose and preparation of cellulose-based biosorbents of iodine was carried out as a new approach to simultaneously solve the environmental challenge of agricultural solid waste and iodine-contaminated water. A rapid recyclable nitric acid treatment and NaOH-H2O2 alkaline-peroxide treatment of WS (33 % cellulose) extracted pure microcrystalline (Cac) and impure cellulose (Cal) with a 21.70 % and 47.37 % isolation yield, respectively. The techno-economic assessment of cellulose production showed a net profit of 9.02 $/kg for Cac, whereas it was estimated as negative for Cal. The simultaneous carbonization and magnetization of Cac at 550 ◦C resulted in an amorphous, magnetic cellulose-derived biochar (MB550Cac) with a BET specific surface area of 12.64 m2/g, decorated with scattered irregular Fe3O4 microparticles. The adsorption capacity of MB550Cac for iodine was 555.63 mg/g, which was lost only 17.45 % after six successful cycles of regeneration. Freundlich isotherm model sufficiently described the reversible iodine adsorption on the heterogenous surface. The adsorption kinetics followed the pseudo-second-order model. Further, the adsorption thermodynamics demonstrated spontaneous and favorable adsorption. These findings suggest the valorization of WS to commercially produce cellulose and MB550Cac as a sustainable, efficient biosorbent with a good application prospect in wastewater treatment.

Keywords

, Microcrystalline cellulose Recyclable extraction Cellulose, based biosorbent Iodine Walnut shell Cost analysis
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@article{paperid:1096783,
author = {Chackoshian Khorasani, Alireza and Razavi Satvati, Paria},
title = {Reusable cellulose-based biosorbents for efficient iodine adsorption by economic microcrystalline cellulose production from walnut shell},
journal = {International Journal of Biological Macromolecules},
year = {2024},
volume = {256},
month = {January},
issn = {0141-8130},
keywords = {Microcrystalline cellulose Recyclable extraction Cellulose-based biosorbent Iodine Walnut shell Cost analysis},
}

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%0 Journal Article
%T Reusable cellulose-based biosorbents for efficient iodine adsorption by economic microcrystalline cellulose production from walnut shell
%A Chackoshian Khorasani, Alireza
%A Razavi Satvati, Paria
%J International Journal of Biological Macromolecules
%@ 0141-8130
%D 2024

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