Competitive adsorptive removal of promazine and promethazine from wastewater using olive tree pruning biochar: operational parameters, kinetics, and equilibrium investigations
Author | El-Azazy, Marwa |
Author | El-Shafie, Ahmed S. |
Author | Fawzy, Samer |
Author | Rooney, David W. |
Author | Osman, Ahmed I. |
Available date | 2024-03-06T08:24:07Z |
Publication Date | 2023-06-16 |
Publication Name | Environmental Science and Pollution Research |
Identifier | http://dx.doi.org/10.1007/s11356-023-27688-6 |
Citation | El-Azazy, M., El-Shafie, A. S., Fawzy, S., Rooney, D. W., & Osman, A. I. (2023). Competitive adsorptive removal of promazine and promethazine from wastewater using olive tree pruning biochar: operational parameters, kinetics, and equilibrium investigations. Environmental Science and Pollution Research, 1-19. |
ISSN | 0944-1344 |
Abstract | This research aims to remove two phenothiazines, promazine (PRO) and promethazine (PMT), from their individual and binary mixtures using olive tree pruning biochar (BC-OTPR). The impact of individual and combinatory effects of operational variables was evaluated for the first time using central composite design (CCD). Simultaneous removal of both drugs was maximized utilizing the composite desirability function. At low concentrations, the uptake of PRO and PMT from their individual solutions was achieved with high efficiency of 98.64%, 47.20 mg/g and 95.87%, 38.16 mg/g, respectively. No major differences in the removal capacity were observed for the binary mixtures. Characterization of BC-OTPR confirmed successful adsorption and showed that the OTPR surface was predominantly mesoporous. Equilibrium investigations revealed that the Langmuir isotherm model best describes the sorption of PRO/PMT from their individual solutions with maximum adsorption capacities of 640.7 and 346.95 mg/g, respectively. The sorption of PRO/PMT conforms to the pseudo-second-order kinetic model. Regeneration of the adsorbent surface was successfully done with desorption efficiencies of 94.06% and 98.54% for PRO and PMT, respectively, for six cycles. Graphical abstract: [Figure not available: see fulltext.]. |
Sponsor | The authors wish to acknowledge the support of The Bryden Centre project (Project ID VA5048). |
Language | en |
Publisher | Springer Nature |
Subject | Binary mixture Central composite design (CCD) Olive tree pruning biochar Phenothiazines Wastewater treatment |
Type | Article |
Pagination | 1-19 |
Issue Number | 34 |
Volume Number | 30 |
ESSN | 1614-7499 |
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