A. Cibati scite author profile

In this work, experimental and modelling investigations were conducted on biochars pyrolyzed at 350°C and 600°C, to determine the effect of pyrolysis temperature, hydrogen peroxide activation and pH on copper and zinc removal, in comparison with commercially available activated carbons. Characterization of biochars was performed by BET surface area, elemental analysis and FTIR spectroscopy. Experiments results demonstrated that biochar pyrolyzed at 600°C adsorbed both copper and zinc more efficiently than biochar pyrolyzed at 350°C. Chemical activation by H2O2 increased the removal capacity of biochar pyrolyzed at 350°C. All investigated biochars showed a stronger affinity for copper retention, with a maximum adsorption capacity of 15.7 mg/g while zinc was 10.4 mg/g. The best adsorption performances were obtained at pH 5 and 6. Langmuir adsorption isotherm described copper adsorption process satisfactorily, while zinc adsorption was better described by Freundlich isotherm.

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Biotreatment of Cr(VI) contaminated waters by sulphate reducing bacteria fed with ethanol

Pagnanelli

Viggi

Cibati

et al. 2012

Journal of Hazardous Materials

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South African sands as a low cost alternative solution for arsenic removal from industrial effluents in permeable reactive barriers: Column tests

Trois

Cibati

2015

Chemical Engineering Journal

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A. Cibati

Selective precipitation of metals from synthetic spent refinery catalyst leach liquor with biogenic H2S produced in a lactate-fed anaerobic baffled reactor

Assessment of Miscanthus × giganteus derived biochar as copper and zinc adsorbent: Study of the effect of pyrolysis temperature, pH and hydrogen peroxide modification

Biotreatment of Cr(VI) contaminated waters by sulphate reducing bacteria fed with ethanol

South African sands as a low cost alternative solution for arsenic removal from industrial effluents in permeable reactive barriers: Column tests

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