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Cellulose
Published in: Cellulose 10/2021

15-05-2021 | Original Research

A sustainable filtering material for efficient removal of volatile organic compounds from their aqueous mixtures

Authors: Yong Lv, Xiangju Xi, Yijiao Xue, Feng Jiang, Xianqi Zhu, Lei Dai, Zhirong Chen

Published in: Cellulose | Issue 10/2021

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Abstract

Volatile organic compounds (VOCs) are hazardous to the environment and human health. Thus, tremendous effort has gone into developing effective/efficient techniques for separation of VOCs from their aqueous mixtures. In this work, a simple and versatile strategy was proposed to fabricate a new material for hydrophobic VOC separations, in which a self-assembling hydrogel consisting of TEMPO-oxidized cellulose nanofibers (TOCNs) and cationic guar gum (CGG) was used. Specifically, TOCNs and CGG were deposited onto a filter paper via a layer-by-layer procedure, resulting in a TOCN/CGG hydrogel-coated filtering material, in which no crosslinking agent was used. The hydrogel is spontaneously formed by electrostatic interactions and hydrogen bonding. The as-prepared filtering material exhibits oil-repellence and underwater oleophobicity resulting from the formation of hydration layer on hydrogel, thus demonstrating good VOC separation performance. One-layer of TOCN/CGG hydrogel coating (dried mass of 0.032 g·m− 2) was proved to realize the VOC separation (separation efficiency of around 99 % and water flux of as high as 905.14 L·m− 2·h− 1). Further increase of the hydrogel layers has negligible influence on the separation efficiency although it decreases the water flux. This filtering material also exhibits good stability during recycling. Consequently, this TOCN/CGG self-assembling hydrogel-coated filtering material has great potential in VOCs-contaminated wastewater treatment.
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Literature
Dai L, Cheng T, Wang Y, Wang B, Duan C, Ke H, Ni Y (2019) A self-assembling guar gum hydrogel for efficient oil/water separation in harsh environments. Sep Purif Technol 225:129–135CrossRef
Dai L, Cheng T, Wang Y, Lu H, Nie S, He H, Ni Y (2019) Injectable all-polysaccharide self-assembling hydrogel: a promising scaffold for localized therapeutic proteins. Cellulose 26(11):6891–6901CrossRef
Dai L, Wang B, An X, Zhang L, Khan A, Ni Y (2017) Oil/water interfaces of guar gum-based biopolymer hydrogels and application to their separation. Carbohydr Polym 169:9–15CrossRef
Delhoménie MC, Heitz M (2005) Biofiltration of air: a review. Crit Rev Biotechnol 25(1–2):53–72CrossRef
Farhadian M, Duchez D, Vachelard C, Larroche C (2008) Monoaromatics removal from polluted water through bioreactors—A review. Water Res 42(6–7):1325–1341CrossRef
Fei F, Levente C, Gyorgy S, Christopher FB (2018) Robust covalently cross-linked polybenzimidazole/graphene oxide membranes for high-flux organic solvent nanofiltration. ACS Appl Mater Interfaces 10(18):16140–16147CrossRef
Gallego E, Perales JF, Roca FJ, Guardino X (2014) Surface emission determination of volatile organic compounds (VOC) from a closed industrial waste landfill using a self-designed static flux chamber. Sci Total Environ 470:587–599CrossRef
Hassan AA, Sorial GA (2010) Removal of benzene under acidic conditions in a controlled trickle bed air biofilter. J Hazard Mater 184(1–3):345–349CrossRef
Joseph B, Sagarika VK, Sabu C, Kalarikkal N, Thomas S (2020) Cellulose nanocomposites: fabrication and biomedical applications. J Bioresour Bioprod 5(4):223–237CrossRef
Kang L, Li J, Zeng J, Gao W, Xu J, Cheng Z, Chen K, Wang B (2019) A water solvent-assisted condensation polymerization strategy of superhydrophobic lignocellulosic fibers for efficient oil/water separation. J Mater Chem A 7(27):16447–16457CrossRef
Kujawa J, Cerneaux S, Kujawski W (2015) Removal of hazardous volatile organic compounds from water by vacuum pervaporation with hydrophobic ceramic membranes. J Membr Sci 474:11–19CrossRef
Levchuk I, Bhatnagar A, Sillanpaa M (2014) Overview of technologies for removal of methyl tert-butyl ether (MTBE) from water. Sci Total Environ 476:415–433CrossRef
Lv Y, Xi X, Dai L, Tong S, Chen Z (2021) Hydrogel as a superwetting surface design material for oil/water separation: a review. Adv Mater Interfaces 8:2002030CrossRef
Ma J, Tong X, Zhang Z, Chen X, Shen W (2018) A photo-catalytic reactor for degrading volatile organic compounds (VOCs) in paper mill environment. J Bioresour Bioprod 3(2):78–83
Rohrbach K, Li Y, Zhu H, Liu Z, Dai J, Andreasen J, Hu L (2014) A cellulose based hydrophilic oleophobic hydrated filter for water/oil separation. Chem Commun 50(87):13296–13299CrossRef
Su M, Liu Y, Li S, Fang Z, He B, Zhang Y, He P (2019) A rubber-like, underwater superoleophobic hydrogel for efficient oil/water separation. Chem Eng J 361:364–372CrossRef
Sun Y, Chu Y, Wu W, Xiao H (2021) Nanocellulose-based lightweight porous materials: a review. Carbohyd Polym 255:117489CrossRef
Tu H, Yu Y, Chen J, Shi X, Zhou J, Deng H, Du Y (2017) Highly cost-effective and high-strength hydrogels as dye adsorbents from natural polymers: chitosan and cellulose. Polym Chem 8(19):2913–2921CrossRef
Tummons EN, Tarabara VV, Chew JW, Fane AG (2016) Behavior of oil droplets at the membrane surface during crossflow microfiltration of oil–water emulsions. J Membr Sci 500:211–224CrossRef
Xue Z, Wang S, Lin L, Chen L, Liu M, Feng L, Jiang L (2011) A novel superhydrophilic and underwater superoleophobic hydrogel-coated mesh for oil/water separation. Adv Mater 23(37):4270–4273CrossRef
Zheng S, Shen C, Alunbate M, Deng J, Wang L, Han Z, Tang H (2013) Discovery of VOC-compliant TEOS sol and its application to SiO2/novolac hybrid coatings. Prog Org Coat 76(2–3):425–431CrossRef
Zhou K, Zhang QG, Han GL, Zhu AM, Liu QL (2013) Pervaporation of water–ethanol and methanol–MTBE mixtures using poly (vinyl alcohol)/cellulose acetate blended membranes. J Membr Sci 448:93–101CrossRef
Zhu L, Chen M, Dong Y, Tang CY, Huang A, Li L (2016) A low-cost mullite-titania composite ceramic hollow fiber microfiltration membrane for highly efficient separation of oil-in-water emulsion. Water Res 90:277–285CrossRef
Zhu Y, Xie W, Li J, Xing T, Jin J (2015) pH-Induced non-fouling membrane for effective separation of oil-in-water emulsion. J Membr Sci 477:131–138CrossRef
Metadata
Title
A sustainable filtering material for efficient removal of volatile organic compounds from their aqueous mixtures
Authors
Yong Lv
Xiangju Xi
Yijiao Xue
Feng Jiang
Xianqi Zhu
Lei Dai
Zhirong Chen
Publication date
15-05-2021
Publisher
Springer Netherlands
Published in
Cellulose / Issue 10/2021
Print ISSN: 0969-0239
Electronic ISSN: 1572-882X
DOI
https://doi.org/10.1007/s10570-021-03938-z

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