Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements

Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements

Acid mine drainage (AMD) and red mud (RM) are frequently available in the metallurgical and mining industry. Treating AMD solutions require the generation of enough alkalinity to neutralize the acidity excess. RM, recognized as a waste generating high alkalinity solution when it is in contact with w...

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Main Authors: Hugo Lucas, Srecko Stopic, Buhle Xakalashe, Sehliselo Ndlovu, Bernd Friedrich
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Metals
Subjects:
acid mine drainage
red mud
neutralization
immobilization
precipitation
Online Access:https://www.mdpi.com/2075-4701/11/4/620
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spelling doaj-949dc2fc4d304e879fb0b8239d5c28802021-04-12T23:01:33ZengMDPI AGMetals2075-47012021-04-011162062010.3390/met11040620Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous ElementsHugo Lucas0Srecko Stopic1Buhle Xakalashe2Sehliselo Ndlovu3Bernd Friedrich4IME Process Metallurgy and Metal Recycling, RWTH Aachen University, 52056 Aachen, GermanyIME Process Metallurgy and Metal Recycling, RWTH Aachen University, 52056 Aachen, GermanyPyrometallurgy Division, MINTEK, Private Bag X3015, Randburg 2125, South AfricaSchool of Chemical and Metallurgical Engineering, University of the Witwatersrand, Johannesburg 2000, South AfricaIME Process Metallurgy and Metal Recycling, RWTH Aachen University, 52056 Aachen, GermanyAcid mine drainage (AMD) and red mud (RM) are frequently available in the metallurgical and mining industry. Treating AMD solutions require the generation of enough alkalinity to neutralize the acidity excess. RM, recognized as a waste generating high alkalinity solution when it is in contact with water, was chosen to treat AMD from South Africa at room temperature. A German and a Greek RM have been evaluated as a potential low-cost material to neutralize and immobilize harmful chemical ions from AMD. Results showed that heavy metals and other hazardous elements such as As, Se, Cd, and Zn had been immobilized in the mineral phase. According to European environmental standards, S and Cr, mainly present in RM, were the only two elements not immobilized below the concentration established for inert waste.https://www.mdpi.com/2075-4701/11/4/620acid mine drainagered mudneutralizationimmobilizationprecipitation
collection DOAJ
language English
format Article
sources DOAJ
author Hugo Lucas
Srecko Stopic
Buhle Xakalashe
Sehliselo Ndlovu
Bernd Friedrich
spellingShingle Hugo Lucas
Srecko Stopic
Buhle Xakalashe
Sehliselo Ndlovu
Bernd Friedrich
Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
Metals
acid mine drainage
red mud
neutralization
immobilization
precipitation
author_facet Hugo Lucas
Srecko Stopic
Buhle Xakalashe
Sehliselo Ndlovu
Bernd Friedrich
author_sort Hugo Lucas
title Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
title_short Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
title_full Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
title_fullStr Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
title_full_unstemmed Synergism Red Mud-Acid Mine Drainage as a Sustainable Solution for Neutralizing and Immobilizing Hazardous Elements
title_sort synergism red mud-acid mine drainage as a sustainable solution for neutralizing and immobilizing hazardous elements
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2021-04-01
description Acid mine drainage (AMD) and red mud (RM) are frequently available in the metallurgical and mining industry. Treating AMD solutions require the generation of enough alkalinity to neutralize the acidity excess. RM, recognized as a waste generating high alkalinity solution when it is in contact with water, was chosen to treat AMD from South Africa at room temperature. A German and a Greek RM have been evaluated as a potential low-cost material to neutralize and immobilize harmful chemical ions from AMD. Results showed that heavy metals and other hazardous elements such as As, Se, Cd, and Zn had been immobilized in the mineral phase. According to European environmental standards, S and Cr, mainly present in RM, were the only two elements not immobilized below the concentration established for inert waste.
topic acid mine drainage
red mud
neutralization
immobilization
precipitation
url https://www.mdpi.com/2075-4701/11/4/620
work_keys_str_mv AT hugolucas synergismredmudacidminedrainageasasustainablesolutionforneutralizingandimmobilizinghazardouselements
AT sreckostopic synergismredmudacidminedrainageasasustainablesolutionforneutralizingandimmobilizinghazardouselements
AT buhlexakalashe synergismredmudacidminedrainageasasustainablesolutionforneutralizingandimmobilizinghazardouselements
AT sehliselondlovu synergismredmudacidminedrainageasasustainablesolutionforneutralizingandimmobilizinghazardouselements
AT berndfriedrich synergismredmudacidminedrainageasasustainablesolutionforneutralizingandimmobilizinghazardouselements
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