Removal of tetracycline by NaOH-activated carbon produced from macadamia nut shells: Kinetic and equilibrium studies

[Display omitted] •A NaOH-activated carbon was prepared from macadamia nut shells.•The ACM showed BET surface area of 1524m2g−1 and microporous feature (78.2%).•Kinetic and equilibrium studies were applied for tetracycline removal.•The ACM presented maximum monolayer adsorption capacity of 455.83mgg...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2015-01, Vol.260, p.291-299
Main Authors: Martins, Alessandro C., Pezoti, Osvaldo, Cazetta, André L., Bedin, Karen C., Yamazaki, Diego A.S., Bandoch, Gisele F.G., Asefa, Tewodros, Visentainer, Jesuí V., Almeida, Vitor C.
Format: Article
Language:English
Subjects:
Activated carbon
Adsorption
Carbon
Diffusion
Isotherms
Macadamia nut shell
Scanning electron microscopy
Shells
Surface chemistry
Tetracycline
Tetracyclines
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Summary:[Display omitted] •A NaOH-activated carbon was prepared from macadamia nut shells.•The ACM showed BET surface area of 1524m2g−1 and microporous feature (78.2%).•Kinetic and equilibrium studies were applied for tetracycline removal.•The ACM presented maximum monolayer adsorption capacity of 455.83mgg−1. A NaOH-activated carbon was prepared from macadamia nut shell using the impregnation ratio of 3:1 (NaOH:char) (wt:wt). The obtained material (ACM) was characterized by several techniques and methodologies such as, N2 adsorption–desorption isotherms, SEM, FT-IR, Boehm titration, and pHpzc. The results demonstrated that the ACM is composed mainly of micropores (78.2%), presenting BET surface area of 1524m2g−1. Through the SEM and FT-IR analysis it could be observed that significant changes occurred on the material surface after the activation procedure. According to Boehm titration, the ACM has on its surface a majority of basic groups which is in agreement with the obtained pHpzc value of 8.74. The ACM was applied for tetracycline (TC) removal in order to assess its potential as an adsorbent. Thus, adsorption studies were carried out and several kinetic and isotherm models were employed. The isotherm model which best fitted to experimental data was Temkin, while the best fitted kinetic model was Elovich. ACM showed maximum monolayer adsorption capacity (Qm) of 455.33mgg−1. The intraparticle diffusion and film diffusion mechanisms were studied by the equations of Weber & Morris and Boyd, respectively. According to the results, the limiting step of the adsorption of TC onto ACM is influenced by intraparticle diffusion and by film diffusion.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2014.09.017