Abstract
Separation of iron from titanium acidic solutions with tri-octylphosphine oxide (TOPO) and trioctylamine (TOA) has been investigated. TOA was found to be more selective for extraction of Fe compared with TOPO from HCl concentrations >1M. Iron could be stripped effectively from the loaded TOA in 1M HClO4. Parameters affecting the transport separation of iron from titanium ions have been studied using a supported liquid membrane impregnated with TOA in kerosene. HCl and HClO4 were used as feed and product solutions, respectively. Transport curves have been developed and Fe transport rate constant, k|>f, together with the time of 99.9% transport, t|>99.9, have been estimated. At 1M HCl, 25 degree C and 0.46M TOA, Fe and Ti were practically not transported. By increasing the HCl concentration, the Fe transport was greatly improved where the t99.9 reached 96h at 5M HCl. The Fe transport was further improved by rising the TOA concentration to 1.15M and the temperature to 80 degree C. Under these conditions about 80% of Fe was transported after only 1.5h and the t|>99.9 reached 6.4h without any significant co-transport of Ti ions. The transport process seemed to be controlled by diffusion in the organic phase through the membrane since increasing the temperature enhanced the Fe transport. Although, direct leaching of ilmenite in HCl is known to be very limited, transport separation of Fe from the slurry by the present TOA-membrane system has lead to superior dissolution of Fe and Ti.