Research Article Open Access

Sorption Extraction of Noble and Non-Ferrous Metals from Process Leaching Solutions

Bagdaulet Kenzhalyevich Kenzhaliyev1, Renata Ramilevna Iskhakova1 and Zamzagul Duisenovna Dosymbayeva1
  • 1 Kazakh-British Technical University, Almaty, Kazakhstan

Abstract

In view of the annual increase in ore processing output for low grade or refractory gold-bearing ores, as well as recoverable raw materials, stricter requirements for completeness of gold extraction and environmental safety, the interest is rising in possible alternatives to substitute the cyanide process used in gold mining practice. One of such alternatives is to convert metals into solutions of various chemical compositions by means of electric current-electrochemical leaching-followed by metal sorption extraction. This paper deals with the issues of sorption behavior of noble (gold, silver) and non-ferrous (copper, iron, cobalt, zinc, nickel, manganese, lead) metals from thiosulfate solutions for chemical and electrochemical leaching of concentrates of two mineral deposits using various anionites. Factors affecting metal uptake most significantly were determined. Degree of zinc and nickel sorption extraction from electrochemical leaching solutions made 99%. It has been established that the nature of metal sorption extraction from process solutions is connected with the micro structure of leaching solutions having quasi-homogeneous structure.

American Journal of Applied Sciences
Volume 12 No. 11, 2015, 875-884

DOI: https://doi.org/10.3844/ajassp.2015.875.884

Submitted On: 6 October 2015 Published On: 18 November 2015

How to Cite: Kenzhaliyev, B. K., Iskhakova, R. R. & Dosymbayeva, Z. D. (2015). Sorption Extraction of Noble and Non-Ferrous Metals from Process Leaching Solutions. American Journal of Applied Sciences, 12(11), 875-884. https://doi.org/10.3844/ajassp.2015.875.884

  • 3,008 Views
  • 2,417 Downloads
  • 0 Citations

Download

Keywords

  • Leaching Solutions
  • Noble Metals
  • Non-Ferrous Metals
  • Sorption