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Facing the still growing demand for metals, particularly for zinc, the recovery of metals from secondary sources should be considered. Spent pickling solutions can be the source of valuable products such as hydrochloric acid, zinc or iron salts or even metallic zinc. The selection of an efficient, selective and economical method for the regeneration of such solutions is a key issue for hot dip galvanizing plants, especially in reference to strict environmental protection regulations.
Czasopismo
Rocznik
Tom
Strony
42--45
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
autor
autor
autor
- Poznan University of Technology, Institute of Chemical Technology and Engineering, pl. M. Skłodowskiej-Curie 2, 60-965 Poznań, Magdalena.RegeI@put.poznan.pl
Bibliografia
- 1. Maass P., Peissker P.: Cynkowanie Ogniowe, Agencja Wydawnicza Placet, Warszawa 1998.
- 2. Göpfert B.: Rückgewinnung von Zink aus zinkhaltigen Abfällen der Feuerverzinkungsindustrie - Ökologische und ökonomische Bewertung, ABAG Projektbericht, 1998.
- 3. Melerowicz R.: Recykling Wewnętrzny i Zewnętrzny w Ocynkowniach, Polskie Towarzystwo Cynkowników, Materiały Pokonferencyjne, II Sympozjum Cynkowników Polskich, 1995, 97.
- 4. Anielak A., Cieślik G.: Analiza Studialna Metod Oczyszczania Ścieków Potrawiennych i Galwanicznych, Monografia nr 8, Politechnika Częstochowska, Częstochowa 1987.
- 5. Koziorowski B.: Oczyszczanie Ścieków Przemysłowych, WNT, Warszawa 1980.
- 6. Kerney U.: Mobile Solvent Extraction: the Removal of Zn from Waste Acids, Intemational Minerals and Metals Technology, 1995, 129.
- 7. Kerney U.: New Recycling Technologies for Fe/Zn Waste Acids from Hot Dip Galvanizing, Proceedings of International Galvanizing Conference, Intergalva, 1994.
- 8. Miesiąc I.: Utilization Methods of Spent Hydrochloirc Acid from Hot Dip Zinc Galvanizing, Pol. J. Chem. Technol., 2003, 4, 34.
- 9. Deuschle A.: Diffusion Dialysis - An Economical Technology for Recovery of Acids From pickling processes, Report, OSMOTA Membrantechnik GmbH, Germany, 1992.
- 10. Tomaszewska M., Gryta M., Morawski A. W.: Recovery of Hydrochloric Acid from Metal Pickling Solutions by Membrane Distillation, Sep. Purif. Technol., 2001, 22 - 23, 591.
- 11. Tomaszewska M.: Membrane Distillation - Examples of Applications in Technology and Environmental Protection, Pol. J. Environ. Studies, 2000, 9, 27.
- 12. Paquay E., Clarinval A. M., Delvaux A., Degrez M., Hurwitz H. D.: Applications of Elelctrodialysis for Acid Pickling Wastewater Treatment, Chem. Eng. J., 2000, 79, 197.
- 13. Wiśniewski J., Wiśniewska G.: Acids nad Iron Salts Removal from Rinsing Water after Metal Etching, Desalination, 1997, 109, 187.
- 14. Miesiac I.: Removal of Zinc(II) and Iron(II) from Spent Hydrochloric Acid by Means of Anionic Resins, Ind. Eng. Chem. Res., 2005, 44, 1004.
- 15. Maranon E., Fernandez Y., Suarez F. J., Alonso F. J., Sastre H.: Treatment of Zcid Pickling Baths by Means of Anionic Resins, Ind. Eng. Chem. Res., 2000, 39, 3370.
- 16. Regel M., Sastre A. M., Szymanowski J.: Recovery of Zinc(II) from HCl Spent Pickling Solutions by Solvent Extraction, Environ. Sci. Technol., 2001, 35, 630.
- 17. Cierpiszewski R., Miesiąc I., Regel-Rosocka M., Szymanowski J.: Removal of Zinc(II) from Spent Hydrochloric Acid Solutions from Zinc Hot Galvanizing Plants, Ind. Eng. Chem. Res., 2002, 41, 598.
- 18. Regel-Rosocka M., Rozenblat M., Nowaczyk R., Wiśniewski M.: Dibutyl Butylphosphonate as an Extractant of Zinc(II) from Hydrochloric Acid Solutions, Physicochem. Problems Min. Proc., 2005, 39, 99.
- 19. Grzeszczyk A., Regel-Rosocka M.: Extraction of Zinc(II), Iron(II) and Iron(III) from Chloride Media with Dibutyl Butylphosphonate, Hydrometallurgy, 2007, 86, 72.
- 20. Regel-Rosocka M., Miesiąc I., Sastre A.M., Szymanowski J.: Screening of Reagents for Recovery of Zinc(II) from Hydrochloric Acid Spent Pickling Solutions, Proceedings of the International Solvent Conference, ISEC 2002, South Africa, 2002, 2, 768.
- 21. Regel-Rosocka M., Miesiąc I., Szymanowski J.: The Extractive Recovery of Zinc(II) from Spent Pickling Solutions, Przem. Chem., 2005, 84, 357.
- 22. Regel-Rosocka M., Sastre A. M., Szymanowski J.: Regeneration of Spent Pickling Solutions Containing Zinc(II), Pol. J. Chem. Tech., 2003, 5, 63.
- 23. Tórz M., Alejski K., Szymanowski J.: Recovery of Zinc(II) from Model Hydrochloric Acid Solutions in Hollow Fiber Modules, Physicochem. Problems Min. Proc., 2002, 36, 101.
- 24. Tórz M., Alejski K., Szymanowski J.: Extraction of Zinc(II) in Hollow Fiber Modules, Pol. J. Chem. Technol., 2003, 4, 65.
- 25. Schügerl K., Larm A., Gudorf M.: Recovery of Zinc Mordant Solutions of Dovetail Plants Proceedings of the International Solvent Conference, ISEC 1996, Melbourne, 1996, 1543.
- 26. Ortiz I., Bringas E., Samaniego H., San Román M. F., Urtiaga A.: Membrane Processes for the Efficient Recovery of Anionic Pollutants, Desalination, 2006, 193, 375.
- 27. Ortiz I., Bringas E., Samaniego H., San Román M. F., Urtiaga A.: Selective Separation of Zinc and Iron from Spent Pickling Solutions by Membrane-Based Solvent Extraction: Process Viability, Sep. Sci. Technol., 2004, 39, 2441.
- 28. Samaniego H., San Román M. F., Ortiz I.: Modelling of the Extraction and Back-Extraction Equilibria of Zinc from Spent Pickling Solutions, Sep. Sci. Technol., 2006, 41, 757.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BPS2-0045-0038