Secondary phase formation during electrokinetic in situ leaching of intact copper sulphide ore

“…However, Cu was not completely recovered, as chalcocite partially transforms into secondary covellite , (Figure S1j–l). Note that this reaction pattern has been previously observed for other Cu porphyry samples that were exposed to in situ leaching conditions . The results of the model simulations illustrate a rapid chalcocite depletion for all experimental columns, with half of the initial chalcocite mass dissolved within the first 2 pore volumes, during which the influent solution Fe 3+ concentration increased from 0.1 to 0.5 mol L –1 .…”

“…Note that this reaction pattern has been previously observed for other Cu porphyry samples that were exposed to in situ leaching conditions. 50 The results of the model simulations illustrate a rapid chalcocite depletion for all experimental columns, with half of the initial chalcocite mass dissolved within the first 2 pore volumes, during which the influent solution Fe 3+ concentration increased from 0.1 to 0.5 mol L −1 . On the basis of this conceptualization and the good agreement of its numerical model implementation with the observed Cu breakthrough behavior, the Cu peak observed in the early phase of stage 4 is most likely the result of chalcopyrite dissolution.…”

In Situ Recovery of Copper: Identifying Mineralogical Controls via Model-Based Analysis of Multistage Column Leach Experiments

“…However, Cu was not completely recovered, as chalcocite partially transforms into secondary covellite , (Figure S1j–l). Note that this reaction pattern has been previously observed for other Cu porphyry samples that were exposed to in situ leaching conditions . The results of the model simulations illustrate a rapid chalcocite depletion for all experimental columns, with half of the initial chalcocite mass dissolved within the first 2 pore volumes, during which the influent solution Fe 3+ concentration increased from 0.1 to 0.5 mol L –1 .…”

“…Note that this reaction pattern has been previously observed for other Cu porphyry samples that were exposed to in situ leaching conditions. 50 The results of the model simulations illustrate a rapid chalcocite depletion for all experimental columns, with half of the initial chalcocite mass dissolved within the first 2 pore volumes, during which the influent solution Fe 3+ concentration increased from 0.1 to 0.5 mol L −1 . On the basis of this conceptualization and the good agreement of its numerical model implementation with the observed Cu breakthrough behavior, the Cu peak observed in the early phase of stage 4 is most likely the result of chalcopyrite dissolution.…”

In Situ Recovery of Copper: Identifying Mineralogical Controls via Model-Based Analysis of Multistage Column Leach Experiments

Investigation of physical and chemical properties of particulate matter caused by vehicle tire wear

Advancement in electrokinetic processes for efficient critical metal Extraction: Unveiling the potential of electrokinetic In-Situ leaching (EK-ISL) in mining and mineral processing