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Recovery of major components of spent zinc electrolyte with di(2-ethylhexyl)phosphoric acid (DEHPA) used as a zinc(II) extractant

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Industrial acidic zinc electrolyte has been treated with calcium compounds and/or concentrated ammonia solution and resulting crystalline phases as well as equilibrium mother liquors were analyzed in detail for dependence on preliminary dilution of electrolyte with water. Neutralized zinc electrolyte was an object of investigation in zinc(II) extraction with di(2-ethylhexyl)phosphoric acid (DEHPA) as an extractant. Dependencies of zinc(II) and contaminants extraction on equilibrium pH, isotherms of zinc(II) extraction and stripping have been studied. During simulated laboratory counter-current trial of zinc extraction a new zinc electrolyte (stripped solution) has been produced. Raffinates left after the process were purified and qualified as mineral magnesium-ammonium fertilizer solutions.
Rocznik
Strony
311--325
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
  • Institute of Non-Ferrous Metals, Sowińskiego 5; 44-100 Gliwice, Poland
autor
  • Institute of Non-Ferrous Metals, Sowińskiego 5; 44-100 Gliwice, Poland
  • Institute of Non-Ferrous Metals, Sowińskiego 5; 44-100 Gliwice, Poland
autor
  • Institute of Non-Ferrous Metals, Sowińskiego 5; 44-100 Gliwice, Poland
Bibliografia
  • 1. FRIAS C., DIAZ G., MARTIN D., SANCHEZ F., 2009, Implementation of first ZINCEX commercial plant treating zinc secondaries; Proc. Europ. Met. Conf., June 28–July 1, Innsbruck, Austria.
  • 2. FRIAS C., MARTIN D., DIAZ G., FALGUERAS J., BAYLINA V., 2004, Highlights of domestic battery recycling plant based on Modified ZINCEX process after five years successful operation. In: Global Symposium on Recycling, Waste Treatment and Clean Technology; REWAS’04 Conference, Madrid, Spain.
  • 3. GARCIA M. A., SANCHEZ F., MEJIAS A., FRADES M., 2005, The Skorpion zinc plant, ZINCEX solvent extraction. The best expectations confirmed after commissioning. In: International Symposium Lead/Zinc 2005, Kyoto, Japan.
  • 4. GOTFRYD L., CHMIELARZ A., SZOŁOMICKI Z., 2011, Recovery of zinc from arduous waste Rusing solvent extraction technique. Part I. Preliminary laboratory studies. Phys. Probl. Min. Proc. 47, 149–158
  • 5. GOTFRYD L., CHMIELARZ A., SZOŁOMICKI Z., 2011, Recovery of zinc from arduous waste Rusing solvent extraction technique. Part II. Pilot plant tests. Phys. Probl. Min. Proc. 47, 183–192.
  • 6. GOTFRYD L., SZYMANOWSKI J., 2004, Recovery of zinc(II) from acidic sulfate solutions. Simulations of counter-current extraction-stripping process. Phys. Probl. Min. Proc. 38, 113–120.
  • 7. REGEL M., SASTRE A. M., SZYMANOWSKI J., 2001, Recovery of zinc(II) from HCl spent pickling solutions by solvent extraction, Envir. Sci. Technol., Vol. 35, 630–635.
  • 8. REGEL-ROSOCKA M., MIESIĄC I., SASTRE A.M., SZYMANOWSKI J., 2002, Screening of reagents for recovery od zinc(II) from hydrochloric acid spent pickling solutions. Proc. ISEC’2002. Chris van Rensburg Publ. Ltd.Cape Town, South Africa, Vol. 2, 768–773.
  • 9. ROZENBLAT M., REGEL-ROSOCKA M., SZYMANOWSKI J., 2004, Metal removal from spent pickling solution of high zinc(II) concentration, Phys. Probl. Min. Proc. 38, 121–129.
  • 10. SWAIN B., JEONG J., LEE J., LEE G.-H., 2006, Separation of cobalt and lithium from mixed sulphate solution using Na-Cyanex 272. Hydrometallurgy 84, 130–138.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1681dc4f-0e66-4704-9011-e2dcb6cc9c9f
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