CEST Proceedings are published under the ISSN 2944-9820.
AliCy as Extractant to Remove Iron from Copper-Free Extreme AMD for Further Extraction of Zinc
Nobahar A., Melka A., Neves L., Carlier J., (Corresponding) Costa M.
Topic:
Wastewater treatment
A previous work showed that copper can be specifically extracted from acid mine drainage (AMD) classified as high-acid and extreme-metals (pH 1.19, ~63 g/L Fe, ~6.5 g/L Al, ~5.3 g/L Cu, ~1.9 g/L Zn and ~0.1 g/L Mn), using 30% (v/v) Acorga M5640 in Shell GTL (a kerosene like solvent) as extractant...Read more
Modelling metal and energy recovery from Acid Mine Drainage by means of Bioelectrochemical Technology
Delgado Y., Lopez E., Martin M., Llanos J., (Corresponding) Fernandez-Morales F.
Topic:
Environmental data analysis and modelling
This work presents a Monod-based mathematical model able to predict the performance of a bioelectrochemical system (BES) treating Acid Mine Drainage (AMD). The BES was operated as a microbial fuel cell (MFC), in order to recover not only the metals but also all the chemical energy contained. The...Read more
Evaluation of industrial wastes as active materials in permeable reactive barrier for acid mine drainage remediation
Sanchez D., Lopez-Bellido J., Acosta I., Rodriguez L., Villaseñor J., (Corresponding) Fernandez-Morales J.
Topic:
Hazardous waste management
The aim of this work was to evaluate the use of agricultural and industrial waste materials as reactive agents into Permeable Reactive Barriers (PRB) for Acid Mine Drainage (AMD) remediation. Laboratory-scale columns containing Volcanic Scoria (VS) as porous fill material and approximately 18% w/w...Read more