Separation of silver from waste waters by ion-exchange resins and concentration by microbial cells (CROSBI ID 100055)
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Podaci o odgovornosti
Cerjan-Stefanović, Štefica ; Briški, Felicita ; Kaštelan-Macan, Marija
engleski
Separation of silver from waste waters by ion-exchange resins and concentration by microbial cells
Waste waters of film processing plants are rich with silver. Part of the silver is regenerated electrochemically, but the rest (0.5g) remains in waste waters and is sent to sewers. This is a bad politic form both the environmental (toxic waste waters) and the economical point of view (a waste of silver). In this work, the silver was isolated by ion-exchange resins and then concentrated by microorganism. For exchange of silver, Ionenaustauscher I, II and IV were used. The batch method was used to obtain a static equilibrium. Silver elution from exchangers is based on silver transformation to a stable cation or anion complex. By varying the ligands, pH and eluent concentrations, optimum elution is found at 1mol/l Na2S2O3, 1mol/l NH3, 2mol/l HNO3 and 1mol/l (NH2)2CO. The concentration of silver in the eluent is about 50mg/l. The silver ion uptake from solutions after ion exchange by mixed bacterial culture isolated from photographic waste water drain and pure bacterial cultures Escherichia coli 3009 and Bacillus subtillus 3053, was studied. Experiments were carried out in submerse culture at pH 7 with different Ag+ concentrations (4, 8 and 40 mg/l) on a rotary shaker (100 rpm) at 37°C. At the lower Ag+ concentrations a good growth and simulataneous removal of Ag+ from the solutions was achived. At Ag+ concentration of 40 mg/l growth and removal of Ag+ by mixed and pure culture differed significantly. Thus mixed bacterial culture grew well and at the same time removed efficiently Ag+ (approximately 90%) from medium. Pure bacterial cultures on the contrary were unable to grow at 40 mg/l Ag+, though their biomass showed to be an effective biosorbent for Ag+ (approximately 80% of Ag+ removal).
waste water ; silver ; microbial cells ; ion-exchange resin
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