Abstract

MXINWA, S.; GOLELA, M.T.  and  ROBERTSON, S.W.. Treatment of chromium (VI) waste solutions with clay-based adsorbents after reduction with acid mine drainage. J. S. Afr. Inst. Min. Metall. [online]. 2024, vol.124, n.1, pp.1-5. ISSN 2411-9717.  http://dx.doi.org/10.17159/2411-9717/2418/2024.

South Africa has one of the largest Cr-related industries in the world and generates large amounts of Cr-containing smelter dusts. It is normal practice to scrub Cr from the furnace off-gas in water, and to recover the Cr by adsorption, followed by recycling of the loaded adsorbent into the furnace. A study was conducted to find a low-cost adsorbent that is capable of removing sufficient Cr from the solutions generated by scrubbing. The test work focused on the evaluation of different clay minerals (attapulgite, bentonite, and kaolinite) as adsorbents for Cr. Cr(VI) could only be adsorbed after prereduction with e.g. ascorbic acid (ASA). An 80% removal of Cr(VI) could be achieved from a solution containing 20 mg/L Cr using bentonite clay after reduction with ASA. Attapulgite and kaolinite adsorbed less than 55% Cr after reduction with ASA. Both ASA and ferrous salts were found to be suitable reducing agents. The use of acid mine drainage (AMD) was also investigated as a low-cost alternative reducing agent, as AMD usually contains iron. The Cr(VI) reduction potential of the AMD was determined by redox titration against a solution containing 50 mg/L Cr(VI). Studies show that AMD can potentially be used as a reducing agent in a Cr removal process if it is available on site.

Keywords : acid mine drainage; adsorbent; chromium; clay minerals; reduction.

        · text in English     · English ( pdf )