Lead removal by polyacrylamide-bentonite and zeolite composites: Effect of phytic acid immobilization

Polyacrylamide (PAA)-bentonite (B) and zeolite (Z) composites were prepared by direct polymerization of PAA in suspensions of B and Z. Phytate (Phy) immobilized onto the composites to obtain their Phy modifications. FT-IR and XRD were employed to characterize their structures. The sorption of Pb 2+...

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Bibliographic Details
Published in:Journal of hazardous materials 2005-12, Vol.127 (1), p.163-171
Main Authors: Ulusoy, Ulvi, Şimşek, Selçuk
Format: Article
Language:English
Subjects:
Acrylic Resins
Adsorbents
Adsorption
Aluminosilicates
Bentonite
Chemistry
Composite
Exact sciences and technology
General and physical chemistry
Lead
Lead - analysis
Phytate
Phytic Acid - pharmacokinetics
Surface physical chemistry
Zeolites
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Summary:Polyacrylamide (PAA)-bentonite (B) and zeolite (Z) composites were prepared by direct polymerization of PAA in suspensions of B and Z. Phytate (Phy) immobilized onto the composites to obtain their Phy modifications. FT-IR and XRD were employed to characterize their structures. The sorption of Pb 2+ from various adsorption media onto the composites was then investigated. The reusability and storage characteristics of the adsorbents with and without Phy were also considered for Pb 2+ adsorption. All isotherms were L and H type of the Giles classification. The Phy adsorption capacities ( X M) of PAA-B and Z lower than those of bare B and Z due to their surface coverage by PAA. The Phy modification decreased the Pb 2+ adsorption capacities of B and PAA-B but ascended those of Z and PAA-Z. However, Phy significantly increased the Langmuir equilibrium constants ( K L) for all adsorbents. Ionic strength of the adsorption media was favorable for the adsorption capacity of PAA-B while not for that of PAA-Z. The chemical structure of the composites was not changed after five reuses and the storage foregoing. It is foreseen that the use of PAA-B and PAA-Z and their Phy modifications will provide practicality and effectiveness for Pb 2+ separation and removal procedures. The X M (mol kg −1) and K L (L mol −1) values for Pb 2+ adsorption from a model solution were 0.16 and 3625 for PAA-B, 0.18 and 5.1 × 10 5 for PAA-B-Phy, 0.28 and 13210 for PAA-Z and 1.65 and 2.0 × 10 5 for PAA-Z-Phy.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2005.06.036