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Seaweeds for the remediation of wastewaters contaminated with zinc(II) ions.
J Hazard Mater. 2006 Aug 25; 136(3):791-9.JH

Abstract

Eleven different species of marine macroalgae were screened at different pH conditions on the basis of zinc(II) biosorption potential. Among the seaweeds, a green alga, Ulva reticulata, exhibited a highest uptake of 36.1 mg/g at pH 5.5 and 100 mg/l initial zinc(II) concentration. Further experiments were conducted to evaluate the zinc(II) biosorption potential of U. reticulata. Sorption isotherm data obtained at different pH (5-6) and temperature (25-35 degrees C) conditions were fitted well with Sips model followed by Freundlich, Redlich-Peterson and Langmuir models. A maximum zinc(II) biosorption capacity of 135.5 mg/g was observed at optimum conditions of 5.5 (pH) and 30 degrees C (temperature), according to the Langmuir model. It was observed from the kinetic data that the zinc(II) biosorption process using U. reticulata follows pseudo-second-order kinetics. Various thermodynamic parameters, such as DeltaG degrees , DeltaH degrees and DeltaS degrees were calculated and they indicated that the present system was a spontaneous and an endothermic process. The influence of the co-ions (Na(+), K(+), Ca(2+) and Mg(2+)) along with zinc(II) present in the wastewater was also studied. Desorption of zinc(II) ions from the zinc(II)-loaded biomass were examined using 0.1 M CaCl(2) at different pH conditions in three sorption-desorption cycles. A fixed-bed column (2 cm i.d. and 35 cm height) was employed to evaluate the continuous biosorption performance of U. reticulata. The column experiments at different bed heights and flow rates revealed that the maximum zinc(II) uptake was obtained at the highest bed height (25 cm) and the lowest flow rate (5 ml/min). Column data were fitted well with Thomas, Yoon-Nelson and modified dose-response models. The column regeneration studies were carried out for three sorption-desorption cycles. A loss of sorption performance was observed during regeneration cycles indicated by a shortened breakthrough time and a decreased zinc(II) uptake.

Authors+Show Affiliations

Senthilkumar R
Department of Chemical Engineering, Sri Venkateswara College of Engineering, Sriperambudur-602105, Tamil Nadu, India.
Vijayaraghavan K
No affiliation info available
Thilakavathi M
No affiliation info available
Iyer PV
No affiliation info available
Velan M
No affiliation info available

MeSH

AdsorptionAlgorithmsBiomassChlorophytaEnvironmental Restoration and RemediationHydrogen-Ion ConcentrationModels, StatisticalPhaeophytaSeaweedThermodynamicsWaste Disposal, FluidZinc

Pub Type(s)

Journal Article

Language

eng

PubMed ID

16487654

Citation

Senthilkumar, R, et al. "Seaweeds for the Remediation of Wastewaters Contaminated With zinc(II) Ions." Journal of Hazardous Materials, vol. 136, no. 3, 2006, pp. 791-9.
Senthilkumar R, Vijayaraghavan K, Thilakavathi M, et al. Seaweeds for the remediation of wastewaters contaminated with zinc(II) ions. J Hazard Mater. 2006;136(3):791-9.
Senthilkumar, R., Vijayaraghavan, K., Thilakavathi, M., Iyer, P. V., & Velan, M. (2006). Seaweeds for the remediation of wastewaters contaminated with zinc(II) ions. Journal of Hazardous Materials, 136(3), 791-9.
Senthilkumar R, et al. Seaweeds for the Remediation of Wastewaters Contaminated With zinc(II) Ions. J Hazard Mater. 2006 Aug 25;136(3):791-9. PubMed PMID: 16487654.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Seaweeds for the remediation of wastewaters contaminated with zinc(II) ions. AU - Senthilkumar,R, AU - Vijayaraghavan,K, AU - Thilakavathi,M, AU - Iyer,P V R, AU - Velan,M, Y1 - 2006/02/17/ PY - 2005/11/14/received PY - 2005/12/28/revised PY - 2006/01/11/accepted PY - 2006/2/21/pubmed PY - 2006/12/19/medline PY - 2006/2/21/entrez SP - 791 EP - 9 JF - Journal of hazardous materials JO - J Hazard Mater VL - 136 IS - 3 N2 - Eleven different species of marine macroalgae were screened at different pH conditions on the basis of zinc(II) biosorption potential. Among the seaweeds, a green alga, Ulva reticulata, exhibited a highest uptake of 36.1 mg/g at pH 5.5 and 100 mg/l initial zinc(II) concentration. Further experiments were conducted to evaluate the zinc(II) biosorption potential of U. reticulata. Sorption isotherm data obtained at different pH (5-6) and temperature (25-35 degrees C) conditions were fitted well with Sips model followed by Freundlich, Redlich-Peterson and Langmuir models. A maximum zinc(II) biosorption capacity of 135.5 mg/g was observed at optimum conditions of 5.5 (pH) and 30 degrees C (temperature), according to the Langmuir model. It was observed from the kinetic data that the zinc(II) biosorption process using U. reticulata follows pseudo-second-order kinetics. Various thermodynamic parameters, such as DeltaG degrees , DeltaH degrees and DeltaS degrees were calculated and they indicated that the present system was a spontaneous and an endothermic process. The influence of the co-ions (Na(+), K(+), Ca(2+) and Mg(2+)) along with zinc(II) present in the wastewater was also studied. Desorption of zinc(II) ions from the zinc(II)-loaded biomass were examined using 0.1 M CaCl(2) at different pH conditions in three sorption-desorption cycles. A fixed-bed column (2 cm i.d. and 35 cm height) was employed to evaluate the continuous biosorption performance of U. reticulata. The column experiments at different bed heights and flow rates revealed that the maximum zinc(II) uptake was obtained at the highest bed height (25 cm) and the lowest flow rate (5 ml/min). Column data were fitted well with Thomas, Yoon-Nelson and modified dose-response models. The column regeneration studies were carried out for three sorption-desorption cycles. A loss of sorption performance was observed during regeneration cycles indicated by a shortened breakthrough time and a decreased zinc(II) uptake. SN - 0304-3894 UR - https://www.unboundmedicine.com/medline/citation/16487654/Seaweeds_for_the_remediation_of_wastewaters_contaminated_with_zinc_II__ions_ DB - PRIME DP - Unbound Medicine ER -