Simulation of Weathering in Mine Waste Rock for Acid Drainage Control Using a Wet Column

Luis F. Mendoza Apolaya; Eusterio Acosta Suasnabar; Ana N. Sandoval; Carlos A. Castañeda Olivera; Guido R. Suca-Apaza; Elmer Benites-Alfaro

doi:10.3303/CET23100096

Simulation of Weathering in Mine Waste Rock for Acid Drainage Control Using a Wet Column

Luis F. Mendoza Apolaya
, Eusterio Acosta Suasnabar
, Ana N. Sandoval
, Carlos A. Castañeda Olivera
, Guido R. Suca-Apaza
, Elmer Benites-Alfaro

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

The negative impacts of mining operations are generally intensified by the lack of preventive measures in the management of mining waste, one of them being the disposal of waste rock that generates drainage depending on its geology, mineralogical composition, geochemistry and solubility of the metals present. The objective of the research was to simulate the weathering of waste rock from mining activities in a wet column under controlled laboratory conditions. The physicochemical parameters were evaluated for 20 weeks. Results were obtained on leachate acidity as one of the main parameters, the pH was found to be between 6.0 and 7.5; this was due to the presence of carbonates as a neutralizer. The results allow taking measures to plan efficient waste management throughout the mining operation process, especially at mine closure, contributing to the control of negative impact.

Idioma original	Inglés
Páginas (desde-hasta)	571-576
Número de páginas	6
Publicación	Chemical Engineering Transactions
Volumen	100
DOI	https://doi.org/10.3303/CET23100096
Estado	Publicada - 1 ene. 2023

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abstract = "The negative impacts of mining operations are generally intensified by the lack of preventive measures in the management of mining waste, one of them being the disposal of waste rock that generates drainage depending on its geology, mineralogical composition, geochemistry and solubility of the metals present. The objective of the research was to simulate the weathering of waste rock from mining activities in a wet column under controlled laboratory conditions. The physicochemical parameters were evaluated for 20 weeks. Results were obtained on leachate acidity as one of the main parameters, the pH was found to be between 6.0 and 7.5; this was due to the presence of carbonates as a neutralizer. The results allow taking measures to plan efficient waste management throughout the mining operation process, especially at mine closure, contributing to the control of negative impact.",

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AU - Mendoza Apolaya, Luis F.

AU - Suasnabar, Eusterio Acosta

AU - Sandoval, Ana N.

AU - Castañeda Olivera, Carlos A.

AU - Suca-Apaza, Guido R.

AU - Benites-Alfaro, Elmer

PY - 2023/1/1

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N2 - The negative impacts of mining operations are generally intensified by the lack of preventive measures in the management of mining waste, one of them being the disposal of waste rock that generates drainage depending on its geology, mineralogical composition, geochemistry and solubility of the metals present. The objective of the research was to simulate the weathering of waste rock from mining activities in a wet column under controlled laboratory conditions. The physicochemical parameters were evaluated for 20 weeks. Results were obtained on leachate acidity as one of the main parameters, the pH was found to be between 6.0 and 7.5; this was due to the presence of carbonates as a neutralizer. The results allow taking measures to plan efficient waste management throughout the mining operation process, especially at mine closure, contributing to the control of negative impact.

AB - The negative impacts of mining operations are generally intensified by the lack of preventive measures in the management of mining waste, one of them being the disposal of waste rock that generates drainage depending on its geology, mineralogical composition, geochemistry and solubility of the metals present. The objective of the research was to simulate the weathering of waste rock from mining activities in a wet column under controlled laboratory conditions. The physicochemical parameters were evaluated for 20 weeks. Results were obtained on leachate acidity as one of the main parameters, the pH was found to be between 6.0 and 7.5; this was due to the presence of carbonates as a neutralizer. The results allow taking measures to plan efficient waste management throughout the mining operation process, especially at mine closure, contributing to the control of negative impact.

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Simulation of Weathering in Mine Waste Rock for Acid Drainage Control Using a Wet Column

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