Non-Dispersive Extraction of Ge(IV) from Aqueous Solutions by Cyanex 923: Transport and Modeling Studies

Transport process of germanium from an aqueous solution containing oxalic acid and 100 mg/L Ge was studied. Cyanex 923 immobilized in a polytetrafluoroethylene membrane was employed as a carrier in a flat-sheet supported liquid membrane (FSSLM) system. The speciation of the germanium ion in the oxal...

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Bibliographic Details
Published in:Metals (Basel ) 2019-06, Vol.9 (6), p.676
Main Authors: Kamran Haghighi, Hossein, Irannajad, Mehdi, Teresa Coll, Maria, Sastre, Ana Maria
Format: Article
Language:English
Subjects:
Acids
Aqueous solutions
Carrier density
Chemistry, Analytic
Chloride
Cyanex 923
Díodes de germani
Efficiency
Enginyeria química
Experiments
Extracció (Química)
Extraction (Chemistry)
Germani
Germanium
Germanium diodes
Leachates
Liquid membranes
Mass transfer
Membranes
Modeling
Oxalic acid
Permeability
Polytetrafluoroethylene
Química agrícola
Química analítica
Reagents
Sodium hydroxide
Solution chemistry
Speciation
Strip
Supported liquid membrane
Transport
Zinc
Àrees temàtiques de la UPC
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Summary:Transport process of germanium from an aqueous solution containing oxalic acid and 100 mg/L Ge was studied. Cyanex 923 immobilized in a polytetrafluoroethylene membrane was employed as a carrier in a flat-sheet supported liquid membrane (FSSLM) system. The speciation of the germanium ion in the oxalic acid medium and related diagrams were applied to study the transport of germanium. The effective parameters such as oxalic acid, carrier concentration, and strip reagent composition were evaluated in this study. Based on the experimental data, the oxalic acid and carrier concentrations of 0.075 mol/L and 20% v/v were the condition in which the efficient germanium transport was achieved, respectively. The concentration range of 0.04–0.1 mol/L was selected for sodium hydroxide (NaOH) as a strip reagent providing the best efficiency to transport germanium through the supported liquid membrane (SLM) system. Furthermore, the permeation model was obtained to calculate the mass transfer resistance of the membrane (Δm) and feed (Δf) phases. According to the results, the values of 1 and 1345 s/cm were found for Δm and Δf, respectively.
ISSN:2075-4701
2075-4701
DOI:10.3390/met9060676