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Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study

Authorized Users Only
2021
Authors
Perendija, Jovana
Veličković, Zlate S.
Cvijetić, Ilija
Lević, Steva M.
Marinković, Aleksandar D.
Milošević, Milena
Onjia, Antonije
Article (Published version)
Metadata
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Abstract
Two optimized methods, based on epoxy-amino reactivity of the Cellulose fibres (Cell) modified with diethylenetriamine (Cell‒DETA), (3-Glycidyloxypropyl)trimethoxysilane (Cell-Glymo), Lignin modified with epichlorohydrine (EL) and Tannic acid (TA), as an additional crosslinker, were developed for the production of the bio-renewable Cell-EL and Cell-EL-TA membranes. The influences of pH, contact time, adsorbent dose, and temperature on adsorption performances were studied by batch adsorption tests. The calculated capacities: 53.9, 99.9, 97.8 and 63.5, 115.8, 127.5 mg g−1 for Ni2+, Pb2+, Cr(VI) using Cell-EL and Cell-EL-TA, respectively, were obtained from Langmuir model fitting at 25 °C. The thermodynamic parameters indicated spontaneous and low endothermic processes. The results of the kinetic study, i.e. pseudo-second-order (PSO) and Weber-Morris (W-M), suggest an intra-particle diffusion as a rate-limiting step. The semi-empirical quantum chemical calculations aided the analysis of t...he non-specific and specific adsorbent/adsorbate interactions and their contribution to the overall bonding mechanism. Membrane utility was confirmed by performing a bed column study. In general, three main environmental issues of the present study, biodegradability of the used membrane, desorption efficiency, and development of the technology for the effective effluent water treatment and safe disposal of by-products highly conform to the demand of integrated environmental management system applicability in practice.

Keywords:
Batch and column study / Cellulose membrane / Semi-empirical calculations / Sustainable development
Source:
Process Safety and Environmental Protection, 2021, 147, 609-625
Publisher:
  • Elsevier
Funding / projects:
  • Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 200026 (University of Belgrade, Institute of Chemistry, Technology and Metallurgy - IChTM) (RS-200026)
  • Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 200135 (University of Belgrade, Faculty of Technology and Metallurgy) (RS-200135)
  • Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 200288 (Innovation Center of the Faculty of Chemistry) (RS-200288)
Note:
  • Supplementary material: https://cherry.chem.bg.ac.rs/handle/123456789/4771
Related info:
  • Referenced by
    https://cherry.chem.bg.ac.rs/handle/123456789/4771

DOI: 10.1016/j.psep.2020.12.027

ISSN: 0957-5820; 1744-3598

WoS: 000623811400050

Scopus: 2-s2.0-85098779116
[ Google Scholar ]
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3
URI
http://cherry.chem.bg.ac.rs/handle/123456789/4770
Collections
  • Publikacije
  • Publikacije
Institution/Community
Hemijski fakultet
TY  - JOUR
AU  - Perendija, Jovana
AU  - Veličković, Zlate S.
AU  - Cvijetić, Ilija
AU  - Lević, Steva M.
AU  - Marinković, Aleksandar D.
AU  - Milošević, Milena
AU  - Onjia, Antonije
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4770
AB  - Two optimized methods, based on epoxy-amino reactivity of the Cellulose fibres (Cell) modified with diethylenetriamine (Cell‒DETA), (3-Glycidyloxypropyl)trimethoxysilane (Cell-Glymo), Lignin modified with epichlorohydrine (EL) and Tannic acid (TA), as an additional crosslinker, were developed for the production of the bio-renewable Cell-EL and Cell-EL-TA membranes. The influences of pH, contact time, adsorbent dose, and temperature on adsorption performances were studied by batch adsorption tests. The calculated capacities: 53.9, 99.9, 97.8 and 63.5, 115.8, 127.5 mg g−1 for Ni2+, Pb2+, Cr(VI) using Cell-EL and Cell-EL-TA, respectively, were obtained from Langmuir model fitting at 25 °C. The thermodynamic parameters indicated spontaneous and low endothermic processes. The results of the kinetic study, i.e. pseudo-second-order (PSO) and Weber-Morris (W-M), suggest an intra-particle diffusion as a rate-limiting step. The semi-empirical quantum chemical calculations aided the analysis of the non-specific and specific adsorbent/adsorbate interactions and their contribution to the overall bonding mechanism. Membrane utility was confirmed by performing a bed column study. In general, three main environmental issues of the present study, biodegradability of the used membrane, desorption efficiency, and development of the technology for the effective effluent water treatment and safe disposal of by-products highly conform to the demand of integrated environmental management system applicability in practice.
PB  - Elsevier
T2  - Process Safety and Environmental Protection
T1  - Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study
VL  - 147
SP  - 609
EP  - 625
DO  - 10.1016/j.psep.2020.12.027
ER  - 
@article{
author = "Perendija, Jovana and Veličković, Zlate S. and Cvijetić, Ilija and Lević, Steva M. and Marinković, Aleksandar D. and Milošević, Milena and Onjia, Antonije",
year = "2021",
abstract = "Two optimized methods, based on epoxy-amino reactivity of the Cellulose fibres (Cell) modified with diethylenetriamine (Cell‒DETA), (3-Glycidyloxypropyl)trimethoxysilane (Cell-Glymo), Lignin modified with epichlorohydrine (EL) and Tannic acid (TA), as an additional crosslinker, were developed for the production of the bio-renewable Cell-EL and Cell-EL-TA membranes. The influences of pH, contact time, adsorbent dose, and temperature on adsorption performances were studied by batch adsorption tests. The calculated capacities: 53.9, 99.9, 97.8 and 63.5, 115.8, 127.5 mg g−1 for Ni2+, Pb2+, Cr(VI) using Cell-EL and Cell-EL-TA, respectively, were obtained from Langmuir model fitting at 25 °C. The thermodynamic parameters indicated spontaneous and low endothermic processes. The results of the kinetic study, i.e. pseudo-second-order (PSO) and Weber-Morris (W-M), suggest an intra-particle diffusion as a rate-limiting step. The semi-empirical quantum chemical calculations aided the analysis of the non-specific and specific adsorbent/adsorbate interactions and their contribution to the overall bonding mechanism. Membrane utility was confirmed by performing a bed column study. In general, three main environmental issues of the present study, biodegradability of the used membrane, desorption efficiency, and development of the technology for the effective effluent water treatment and safe disposal of by-products highly conform to the demand of integrated environmental management system applicability in practice.",
publisher = "Elsevier",
journal = "Process Safety and Environmental Protection",
title = "Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study",
volume = "147",
pages = "609-625",
doi = "10.1016/j.psep.2020.12.027"
}
Perendija, J., Veličković, Z. S., Cvijetić, I., Lević, S. M., Marinković, A. D., Milošević, M.,& Onjia, A.. (2021). Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study. in Process Safety and Environmental Protection
Elsevier., 147, 609-625.
https://doi.org/10.1016/j.psep.2020.12.027
Perendija J, Veličković ZS, Cvijetić I, Lević SM, Marinković AD, Milošević M, Onjia A. Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study. in Process Safety and Environmental Protection. 2021;147:609-625.
doi:10.1016/j.psep.2020.12.027 .
Perendija, Jovana, Veličković, Zlate S., Cvijetić, Ilija, Lević, Steva M., Marinković, Aleksandar D., Milošević, Milena, Onjia, Antonije, "Bio-membrane based on modified cellulose, lignin, and tannic acid for cation and oxyanion removal: Experimental and theoretical study" in Process Safety and Environmental Protection, 147 (2021):609-625,
https://doi.org/10.1016/j.psep.2020.12.027 . .

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