Insight into the chemical and biochemical mechanisms governing inorganic contaminants removal by selective precipitation and neutralization in acid mine drainage treatment using MgO: A comparative study
Author:
Funder
Water Research Commission
Publisher
Elsevier BV
Reference148 articles.
1. Acid mine drainage: challenges and opportunities;Simate;J. Environ. Chem. Eng.,2014
2. Environmentally sustainable acid mine drainage remediation: research developments with a focus on waste/by-products;Moodley;Min. Eng.,2018
3. Insights into mechanisms governing the passive removal of inorganic contaminants from acid mine drainage using permeable reactive barrier;Shabalala;J. Environ. Manage.,2022
4. Acid mine drainage formation, control and treatment: approaches and strategies;Skousen;Extractive Industries and Society,2019
5. Effects of Fe-rich acid mine drainage on percolation features and pore structure in carbonate rocks;Zhang;J. Hydrol.,2020
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1. Acid mine drainage treatment and metals recovery by means of selective precipitation using magnesium oxide (MgO): An experimental study;Groundwater for Sustainable Development;2024-05
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