Enhanced biosorption of transition metals by living Chlorella vulgaris immobilized in Ca-alginate beads

Ahmad, A. and Bhat, A.H. and Buang, A. (2018) Enhanced biosorption of transition metals by living Chlorella vulgaris immobilized in Ca-alginate beads. Environmental Technology (United Kingdom). pp. 1-17.

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Abstract

In this study freely suspended and Ca-alginate immobilized C. vulgaris cells were used for the biosorption of Fe(II), Mn(II), and Zn(II) ions, from the aqueous solution. Experimental data showed that biosorption capacity of algal cells was strongly dependent on the operational condition such as pH, initial metal ions concentration, dosages, contact time and temperature. The maximum biosorption of Fe(II) 43.43, Mn(II) 40.98 and Zn(II) 37.43â� mg/g was achieved with Ca-alginate immobilized algal cells at optimum pH of 6.0, algal cells dosage 0.6â� g/L, and contact time of 450â� min at room temperature. The biosorption efficiency of freely suspended and immobilized C. vulgaris cells for heavy metals removal from the industrial wastewater was validated. Modeling of biosorption kinetics showed good agreements with pseudo-second-order. Langmuir and Dâ��R isotherm models exhibited the best fit of experimental data. The thermodynamic parameters (Î�G°, Î�H°, and Î�S°) revealed that the biosorption of considered metal ions was feasible, spontaneous and exothermic at 25â��45°C. The SEM showed porous morphology which greatly helps in the biosorption of heavy metals. The Fourier transform infrared spectrophotometer (FTIR) and X-rays Photon Spectroscopy (XPS) data spectra indicated that the functional groups predominately involved in the biosorption were Câ��N, â��OH, COOâ��, â��CH, C=C, C=S and â��Câ��. These results shows that immobilized algal cells in alginate beads could potentially enhance the biosorption of considered metal ions than freely suspended cells. Furthermore, the biosorbent has significantly removed heavy metals from industrial wastewater at the optimized condition. © 2018 Informa UK Limited, trading as Taylor & Francis Group

Item Type: Article
Impact Factor: cited By 0; Article in Press
Departments / MOR / COE: Research Institutes > Institute for Contaminant Management
Depositing User: Mr Ahmad Suhairi Mohamed Lazim
Date Deposited: 23 Jul 2018 05:31
Last Modified: 11 Oct 2018 02:08
URI: http://scholars.utp.edu.my/id/eprint/20583

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