Removal of tin from dilute solutions

The fluidised bed cell of inert glass beads is an electrolytic reactor whic h is designed to provide higher ion-transfer conditions during electrolysis , thus enabling metals to be removed efficiently from dilute solutions. The effectiveness of the method as a means of removing metals from effluent to meet discharge consent levels is studied for the in situ removal of tin fr om dilute solution (concentration range 0.25-1.00 gdm(-3)). The results sho w that the combination of high mass transport conditions and a moderately h igh electrode surface area per unit electrode volume provides a system for continuous removal of metal from dilute solutions. The effects of acid conc entration, tin concentration, current density, fluidised bed agitation, ele ctrode spacing, type of electrode and lead impurities on the removal of tin are reported and expressed in terms of the percentage removal of tin (alph a (Sn)) , the efficiency of tin deposition (phi (Sn)), and the energy consu mption (W-Sn) for 1 kg of tin deposited. The results show that tin can, und er optimised conditions, be removed from dilute solutions to a residual con centration of 0.001 gdm(-3) (C) 2001 Society of Chemical Industry.