Abstracto
Preconcentration and analytical separation of silver (Ag+1), copper (Cu+2) and zinc (Zn+2) ions using supported liquid membrane technology
MohmmadWaqarAshraf
Analytical separation and transport behavior of silver, copper and zinc across supported liquid membrane using crown ethers dithio-18-crown-6 (DT18C6) and dicyclohexano-18-crown-6 (DC18C6) in chloroform, has been investigated. Phase distribution studies show that selectivity of the interface is much higher when the metal cation is inserted deeper in the polyether cavity. Silver ions specie aremore adaptable to the cavities ofDT18C6 and DC18C6 than are copper and zinc. Transport studies showed that fluxes obtained with DT18C6 were slightly lower than those of DC18C6 for all three ions studied. Use of different solid supports revealed that fluxes increase with increasing porosity of the support but decrease with increasing thickness. Differences inmolar flowrates (F) at feed and strip membrane interfaces were observed, due to the reason that decomplexation rate at the strip side is slower than complexation rate at the feed side. The magnititude of separation factor (SF=2.51) showed thatAg+ could very well be separated from Cu++ and Zn++ using DC18C6/chloroform membrane. The feasibility of preconcentration of Ag+ was also studied by using the hollow fiber module system. Highest enrichment factor (EF) was obtained for 40 mg/L whereby all the metal ions were transported to the stripping phase and resulting Ag+ concentration was 490 mg/L(EF=12.3).