<p>In this study, exopolymeric substances (EPS) from <i>Bacillus cereus</i> were immobilized in alginate to form alginate-EPS beads. The surface characteristics of the alginate-EPS beads were examined using Scanning Electron Microscopy (SEM) and Fourier-Transform Infrared Spectroscopy (FTIR). The mechanisms of Pb removal was determined based on equilibrium and kinetic models. Packed-bed biosorption studies using Pb solutions (750&#xa0;mg L<sup>−1</sup> concentration) evaluated their efficacy for Pb uptake and removal, under the influence of initial pH of metal solution and the size of biosorbents. The reusability of the alginate-EPS beads was also tested by examining the column regeneration, exhaustion time and sorption–desorption activities of the Pb-loaded beads. Results revealed that the alginate-EPS beads produced have uneven surface with various functional groups (hydroxyl, amide, carboxyl, phosphates) detected. Their Pb removal efficacy was highest in Pb solutions with pH 4, recording 51.52% Pb removal, followed by pH 6 (48.62%) and pH 8 (46.78%). For bead size, alginate-EPS beads measuring 3&#xa0;mm diameter size was more efficient in Pb removal (51.52%), compared to 2&#xa0;mm- (39.23%) and 5&#xa0;mm-sized beads (28.52%). All alginate-EPS beads complied with the Langmuir isotherm (R<sup>2</sup> = 0.992) and pseudo-second order kinetic (R<sup>2</sup> = 0.995), suggesting monolayer adsorption is likely to have occurred on their homogenous surface. The alginate-EPS beads were successfully used for five adsorption cycles, with consistent Pb removal (41.40–50.59%). This study recommends the use of 3&#xa0;mm bead size for Pb removal (pH 4 solutions) due to greater Pb removal (51.5%) and uptake (13.29&#xa0;mg&#xa0;g<sup>−1</sup>), and reasonable exhaustion time (540&#xa0;min). There is potential of applying alginate-EPS beads in packed-bed systems as a feasible and effective method for the removal of heavy metals from wastewater.</p>

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Alginate-immobilized exopolymeric substances from bacteria for Lead (Pb) removal: biosorption and reusability studies

  • Adeline Su Yien Ting,
  • Kai Hao Tiew,
  • Keang Peng Song

摘要

In this study, exopolymeric substances (EPS) from Bacillus cereus were immobilized in alginate to form alginate-EPS beads. The surface characteristics of the alginate-EPS beads were examined using Scanning Electron Microscopy (SEM) and Fourier-Transform Infrared Spectroscopy (FTIR). The mechanisms of Pb removal was determined based on equilibrium and kinetic models. Packed-bed biosorption studies using Pb solutions (750 mg L−1 concentration) evaluated their efficacy for Pb uptake and removal, under the influence of initial pH of metal solution and the size of biosorbents. The reusability of the alginate-EPS beads was also tested by examining the column regeneration, exhaustion time and sorption–desorption activities of the Pb-loaded beads. Results revealed that the alginate-EPS beads produced have uneven surface with various functional groups (hydroxyl, amide, carboxyl, phosphates) detected. Their Pb removal efficacy was highest in Pb solutions with pH 4, recording 51.52% Pb removal, followed by pH 6 (48.62%) and pH 8 (46.78%). For bead size, alginate-EPS beads measuring 3 mm diameter size was more efficient in Pb removal (51.52%), compared to 2 mm- (39.23%) and 5 mm-sized beads (28.52%). All alginate-EPS beads complied with the Langmuir isotherm (R2 = 0.992) and pseudo-second order kinetic (R2 = 0.995), suggesting monolayer adsorption is likely to have occurred on their homogenous surface. The alginate-EPS beads were successfully used for five adsorption cycles, with consistent Pb removal (41.40–50.59%). This study recommends the use of 3 mm bead size for Pb removal (pH 4 solutions) due to greater Pb removal (51.5%) and uptake (13.29 mg g−1), and reasonable exhaustion time (540 min). There is potential of applying alginate-EPS beads in packed-bed systems as a feasible and effective method for the removal of heavy metals from wastewater.