• Title of article

    Removal of entrained organic phase from zinc electrolyte: Pilot plant comparison of CoMatrix and carbon filtration

  • Author/Authors

    Sole، نويسنده , , Kathryn C. and Stewart، نويسنده , , Ronald J. and Maluleke، نويسنده , , Rhulani F. and Rampersad، نويسنده , , Avinash and Edward Mavhungu، نويسنده , , A.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    10
  • From page
    11
  • To page
    20
  • Abstract
    Zinc electrowinning is extremely sensitive to the presence of organic impurities in the electrolyte. In recent hydrometallurgical processes for zinc, where solvent extraction is employed for the purification of the leach liquor, it is essential to ensure that all trace organics are removed to levels of < 1 ppm from the advance electrolyte. ork compares the performance of activated carbon and CoMatrix filtration systems for the removal of organic entrainment (OE) from a zinc electrolyte. The CoMatrix pilot unit comprised a matrix packing in series with an anthracite/garnet dual media filtration system. The performance in the primary loading (lead) position of the CoMatrix combination was compared with a stand-alone carbon column. The performance of the CoMatrix system in series with a secondary (lag) carbon column was also assessed. ganic-removal efficiency was dependent on the flowrate of electrolyte through the column for both CoMatrix and carbon in primary mode. The matrix packing alone provided very consistent organic removal to a concentration of 10 ppm, irrespective of the OE concentration of the feed solution, thereby acting as a reliable surge protector against periodic organic spikes in the system. The dual media performance was erratic, characterised by frequent breakthrough of the organic phase at all flowrates tested, and this packing contributed little to the overall organic removal. mary duty, a single carbon column was more reliable and produced better organic removal than the CoMatrix combination under appropriate operating conditions. The carbon column also demonstrated better ability to filter suspended solids from the electrolyte. The carbon column in secondary mode showed excellent lifetime, and the target output of < 1 ppm OE was consistently produced under appropriate operating conditions. concluded that the most suitable configuration for organic removal in this application was a matrix packing alone (acting as a surge protector), followed by activated carbon columns in both primary and secondary (lead and lag) positions.
  • Keywords
    D2EHPA , Solvent extraction , Organic removal , entrainment , Zinc , dual media , Activated carbon , Di(2-ethylhexyl)phosphoric acid
  • Journal title
    HYDROMETALLURGY
  • Serial Year
    2007
  • Journal title
    HYDROMETALLURGY
  • Record number

    2371436