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Biosorptive removal of Ni(Ii) from wastewater and industrial effluent

International Journal of Environmental Research and Public Health (2007) 4(4) 332-339
DOI: 10.3390/ijerph200704040009
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Abstract

The objective of the present work was to investigate the removal of Ni(II) by the fresh biomass (FBM) and chemically treated leached biomass (LBM) of Calotropis procera. The scope of the work included screening of the biosorbents for their metal uptake potential, batch equilibrium, column mode removal studies and kinetic studies at varying pH (2-6), contact time, biosorbent dosages (1-25 g/L) and initial metal ion concentration (5-500 mg/L). The development of batch kinetic model and determination of order, desorption studies, column studies were investigated. It was observed that pH had marked effect on the Ni(II) uptake. Langmuir and Freundlich models were used to correlate equilibrium data on sorption of Ni(II) metallic ion by using both FBM and LBM at 28°C and pH 3 and different coefficients were calculated. It was found that both biomasses were statistically significant fit for Freundlich model. The biomass was successfully used for removal nickel from synthetic and industrial effluents and the technique appears industrially applicable and viable. © 2007 MDPI. All rights reserved.

Figures

  • Figure 1: Effect of pH on the biosorption of Ni(II)
  • Figure 2: Effect of Biosorbent Dosage on the biosorption of Ni(II)
  • Figure 4: Effect of contact time on biosorption of Ni(II).
  • Figure 3: Effect of Initial metal ion concentration on the biosorption of Ni(II)
  • Figure 5: Lagergren equation fitting showing a linear relationship
  • Figure 6: Effect of common ions on the biosorption of Ni(II) with chemically leached biomass at pH 3
  • Figure 8: Effect of different eluting agents on desorption of Ni(II)
  • Figure 7: Loading capacity determination of Ni(II)

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CITATION STYLE

APA

Pandey, P. K., Choubey, S., Verma, Y., Pandey, M., Kamal, S. S. K., & Chandrashekhar, K. (2007). Biosorptive removal of Ni(Ii) from wastewater and industrial effluent. International Journal of Environmental Research and Public Health, 4(4), 332–339. https://doi.org/10.3390/ijerph200704040009

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