Characterization of alginate polymer and its application in copper removal from liquid wastes
Journal of American Science • 2013
Publication Information
Authors
M.S. Mahmoud and Ahmed M. Abou Elmagd
Keywords
copper sorption, alginate polymer, Equilibrium, heavy metals, adsorption, isothermal models
Journal
Journal of American Science
Publisher
Not Available
Volume
9
Issue
11
Pages
432-439
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Abstract: Copper is one of the most dangerous pollutants that require removal from wastewater effluents before
being discharged. Here are reported on the adsorption performance of a novel environmental friendly material,
calcium alginate gel beads as a non-conventional technique for the successful removal of copper ions from aqueous
solution. Batch equilibrium studies were carried out to evaluate the adsorption capacity and process parameters such
as pH, adsorbent dosages, initial metal ion concentrations, stirring rates and contact times. It was observed that, the
maximum removal of copper ions was occurred at pH 5.0 ± 0.02. An adsorbent dose of 1 g/L was optimum for
copper ions removal within an equilibrium time. For all contact times, an increase in copper ions concentration
resulted in decrease in the percent of copper ions removal (91.98%–49.96%) and an increase in adsorption capacity
(4.59 – 49.93 mg/g) for copper ions concentrations 5 and 100 ppm, respectively. The mechanical stirring speeds
greatly enhance the mass transfer rate of copper ions onto the adsorbent indicating 250 rpm is the optimum. The
removal of copper ions occurs rapidly within the two hours (equilibrium time), followed by a slow removal process.
The Langmuir and Freundlich's isothermal models were used to describe the experimental adsorption. The
equilibrium adsorption data were well fitted to Langmuir isotherms (R2 = 0.9959) and the maximum adsorption
capacities of the calcium alginate gel beads were found to be (87.5%, 17.5 mg/g) were obtained at the optimum
conditions on a Jar test at temperature 25 ± 3C for copper ions concentration 20ppm. The calcium alginate gel
beads were characterized using Fourier transform-infrared (FT-IR) spectroscopy and Transmission electron
microscopy (TEM).
being discharged. Here are reported on the adsorption performance of a novel environmental friendly material,
calcium alginate gel beads as a non-conventional technique for the successful removal of copper ions from aqueous
solution. Batch equilibrium studies were carried out to evaluate the adsorption capacity and process parameters such
as pH, adsorbent dosages, initial metal ion concentrations, stirring rates and contact times. It was observed that, the
maximum removal of copper ions was occurred at pH 5.0 ± 0.02. An adsorbent dose of 1 g/L was optimum for
copper ions removal within an equilibrium time. For all contact times, an increase in copper ions concentration
resulted in decrease in the percent of copper ions removal (91.98%–49.96%) and an increase in adsorption capacity
(4.59 – 49.93 mg/g) for copper ions concentrations 5 and 100 ppm, respectively. The mechanical stirring speeds
greatly enhance the mass transfer rate of copper ions onto the adsorbent indicating 250 rpm is the optimum. The
removal of copper ions occurs rapidly within the two hours (equilibrium time), followed by a slow removal process.
The Langmuir and Freundlich's isothermal models were used to describe the experimental adsorption. The
equilibrium adsorption data were well fitted to Langmuir isotherms (R2 = 0.9959) and the maximum adsorption
capacities of the calcium alginate gel beads were found to be (87.5%, 17.5 mg/g) were obtained at the optimum
conditions on a Jar test at temperature 25 ± 3C for copper ions concentration 20ppm. The calcium alginate gel
beads were characterized using Fourier transform-infrared (FT-IR) spectroscopy and Transmission electron
microscopy (TEM).
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