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- Title
An investigation on adsorption of carbamazepine with adsorbents developed from flax shives: Kinetics, mechanisms, and desorption.
- Authors
Aghababaei, Aylin; Borugadda, Venu Babu; Dalai, Ajay; Niu, Catherine Hui
- Abstract
In this work, adsorbents based on hydrochars and steam activated hydrochars developed from flax shives were used to adsorb carbamazepine (CBZ) from simulated contaminated water. The adsorption kinetics was investigated at various temperatures (293–313 K) and times (2–96 h). Four different kinetic models were used to analyze the experimental CBZ adsorption kinetic data. Among the tested various models, the pseudo-second-order kinetic model provided the best simulation to the kinetic data of both adsorbents with R2 of being 0.98 and above, and activation energy of 31.8 and 16.45 kJ/mol, respectively. The determined adsorption rate constant of the steam activated hydrochars ((5.88–9.09) × 10−5) was much higher than that of the hydrochars ((2.81–6.44) × 10−6). Further, X-ray photoelectron spectra and Near-Edge X-Ray Absorption Fine Structure (NEXAFS) Spectroscopy analysis were done before and after loading with CBZ. The results show π-π electron donor-acceptor interaction played an important role on the adsorption mechanism of CBZ on the above-mentioned adsorbents. Hydrophobic interaction also contributed while the roles of hydrogen bonding and electrostatic attraction between CBZ and adsorbents with opposite charges is insignificant. Pore filling may contribute. Desorption of CBZ from CBZ-loaded adsorbents was investigated with various organic solvents, and water at different pH (2, 6 and 10), among which ethanol was the most effective solvent to desorb CBZ. Overall, the results demonstrated that flax shives are promising feedstocks to be made into adsorbents for treatment of wastewater contaminated by antibiotics and additional pharmaceuticals. [Display omitted] • Flax shive adsorbents were used to adsorb carbamazepine (CBZ). • The adsorption kinetics was investigated at various temperatures and times. • The mechanisms of CBZ adsorption were elucidated. • Desorption of CBZ from CBZ-loaded adsorbents was investigated with various organic solvents and water at different pH.
- Subjects
ADSORPTION kinetics; SORBENTS; X-ray photoelectron spectra; DESORPTION; FLAX; X-ray absorption spectra; ELECTRON donors; HYDROPHOBIC interactions
- Publication
Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers Part A, 2023, Vol 189, p138
- ISSN
0263-8762
- Publication type
Article
- DOI
10.1016/j.cherd.2022.11.008