Chelation and permeation of heavy metals using affinity membranes from cellulose acetate–chitosan blends

Affinity membranes have attracted the attention of membrane researchers especially in the field of wastewater treatment specifically in removing heavy metals by chelation from aqueous solutions. In the present work, several membranes are made from either cellulose di-acetate (CA) or CA together with...

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Bibliographic Details
Published in:Desalination and water treatment 2013-01, Vol.51 (1-3), p.644-657
Main Authors: Naim, M.M., Abdel Razek, H.E.M.
Format: Article
Language:English
Subjects:
Acetates
Acetic acid
Affinity
Affinity membrane
Applied sciences
Capacity
Cellulose
Cellulose acetate
Cellulose di-acetate
Chelation
Chitosan
Compartments
Composition
Copper
Crabs
Cu(II) ions
Decapoda
Diffusion cells
Distilled water
Dye dispersion
Exact sciences and technology
Glass plates
Heavy metals
Industrial wastewaters
Ions
Marine crustaceans
Mass transfer
Mathematical models
Membrane permeability
Membranes
Morphology
Penetration
Permeability
Pollution
Polymer blends
Ratios
Scanning electron microscopy
Shells
Shrimps
Solutions
Wastewater
Wastewater treatment
Wastewaters
Water treatment and pollution
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Summary:Affinity membranes have attracted the attention of membrane researchers especially in the field of wastewater treatment specifically in removing heavy metals by chelation from aqueous solutions. In the present work, several membranes are made from either cellulose di-acetate (CA) or CA together with chitosan (CS) solutions, the CS prepared in our lab from shrimp shells or from readymade shrimp or crab shells. The variables investigated included type and ratio of solvents forming the casting solutions, mass ratio of CA to CS in the casting solution, type of CS (shrimp or crab shells), and initial concentration of Cu(II) ions. The membranes were fabricated by casting on a glass plate of a casting assembly using a surgical blade by the phase inversion technique. The permeation and adsorption capacity of each membrane were examined in a plexiglass two compartment diffusion cell in which the membrane was placed between the two compartments to separate the copper ion solution from an equal volume of distilled water. The two compartments were stirred either magnetically or mechanically. The results were presented as concentration–time curves and ln (Co/Ct) vs. time from which the overall mass transfer coefficient was computed in each case. It was found that the presence of CS obtained from shrimps acted as a better affinity membrane in high CA to CS ratios as well as high concentration of Cu(II) ions, and that crab CS has a poor affinity to Cu(II) ions compared to that obtained from shrimps. It was also realized that the composition of the casting solution markedly affected the properties of the fabricated affinity membrane. In addition, scanning electron microscopic examination revealed the morphology of the membrane surfaces (upper, lower, and cross-section). It is worth mentioning that membrane thickness has a profound effect on both permeability and extent of chelation of the heavy metal examined.
ISSN:1944-3986
1944-3994
1944-3986
DOI:10.1080/19443994.2012.700035