Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−

dc.contributor.authorDzingai, Mathew
dc.contributor.authorManono, Malibongwe S
dc.contributor.authorCorin, Kirsten C
dc.date.accessioned2021-10-13T20:12:01Z
dc.date.available2021-10-13T20:12:01Z
dc.date.issued2021-03-25
dc.date.updated2021-04-23T13:35:02Z
dc.description.abstractWater scarcity necessitates the recycling of process water within mineral processing practices. This may however come with its disadvantages for unit operations such as froth flotation as this process is water intensive and sensitive to water chemistry. It is therefore important to monitor the water chemistry of the recycle stream of process water and any other water source to flotation. Monitoring the concentrations of the anions in recycled process water is therefore important to consider as these are speculated to impact flotation performance. Batch flotation tests were conducted using synthetically prepared plant water (3 SPW) with a TDS of 3069 mg/L as the baseline experiment. 3 SPW contained 528 mg/LNO3 − and 720 mg/L SO4 2−, other anions and cations, and no S2O3 2−. Upon spiking 3 SPW with selected anions, viz, NO3 −, SO4 2− and S2O3 2−, it was noted that NO3 − and SO4 2− exhibited threshold concentrations while S2O3 2− did not show a threshold concentration for both copper and nickel grade. Spiking 3 SPW with 352 mg/L more of NO3 − to a total 880 mg/L NO3 − concentration resulted in the highest copper and nickel grade compared to 3 SPW while increasing the S2O3 2− from 60 to 78 mg/L increased nickel and copper grade. 720 to 1200 mg/L SO4 2− and 528 to 880 mg/L NO3 − were deemed the concentration boundaries within which lies the threshold concentration above which flotation performance declines with respect to metal grades, while for S2O3 2− the threshold concentration lies outside the range considered for this study. Anion distribution between the pulp and the froth did not seem to impact the recovery of copper or nickel. Notably, the correlation between the concentrate grades and anion distribution between the froth and the pulp seemed to be ion dependent.en_US
dc.identifier10.3390/min11040340
dc.identifier.apacitationDzingai, M., Manono, M. S., & Corin, K. C. (2021). Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−. <i>Minerals</i>, 11(4), 340. http://hdl.handle.net/11427/35238en_ZA
dc.identifier.chicagocitationDzingai, Mathew, Malibongwe S Manono, and Kirsten C Corin "Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−." <i>Minerals</i> 11, 4. (2021): 340. http://hdl.handle.net/11427/35238en_ZA
dc.identifier.citationDzingai, M., Manono, M.S. & Corin, K.C. 2021. Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−. <i>Minerals.</i> 11(4):340. http://hdl.handle.net/11427/35238en_ZA
dc.identifier.ris TY - Journal Article AU - Dzingai, Mathew AU - Manono, Malibongwe S AU - Corin, Kirsten C AB - Water scarcity necessitates the recycling of process water within mineral processing practices. This may however come with its disadvantages for unit operations such as froth flotation as this process is water intensive and sensitive to water chemistry. It is therefore important to monitor the water chemistry of the recycle stream of process water and any other water source to flotation. Monitoring the concentrations of the anions in recycled process water is therefore important to consider as these are speculated to impact flotation performance. Batch flotation tests were conducted using synthetically prepared plant water (3 SPW) with a TDS of 3069 mg/L as the baseline experiment. 3 SPW contained 528 mg/LNO3 − and 720 mg/L SO4 2−, other anions and cations, and no S2O3 2−. Upon spiking 3 SPW with selected anions, viz, NO3 −, SO4 2− and S2O3 2−, it was noted that NO3 − and SO4 2− exhibited threshold concentrations while S2O3 2− did not show a threshold concentration for both copper and nickel grade. Spiking 3 SPW with 352 mg/L more of NO3 − to a total 880 mg/L NO3 − concentration resulted in the highest copper and nickel grade compared to 3 SPW while increasing the S2O3 2− from 60 to 78 mg/L increased nickel and copper grade. 720 to 1200 mg/L SO4 2− and 528 to 880 mg/L NO3 − were deemed the concentration boundaries within which lies the threshold concentration above which flotation performance declines with respect to metal grades, while for S2O3 2− the threshold concentration lies outside the range considered for this study. Anion distribution between the pulp and the froth did not seem to impact the recovery of copper or nickel. Notably, the correlation between the concentrate grades and anion distribution between the froth and the pulp seemed to be ion dependent. DA - 2021-03-25 DB - OpenUCT DP - University of Cape Town IS - 4 J1 - Minerals LK - https://open.uct.ac.za PY - 2021 T1 - Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32− TI - Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32− UR - http://hdl.handle.net/11427/35238 ER - en_ZA
dc.identifier.urihttp://hdl.handle.net/11427/35238
dc.identifier.vancouvercitationDzingai M, Manono MS, Corin KC. Probing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−. Minerals. 2021;11(4):340. http://hdl.handle.net/11427/35238.en_ZA
dc.language.isoenen_US
dc.publisher.facultyFaculty of Engineering and the Built Environmenten_US
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en_US
dc.sourceMineralsen_US
dc.source.journalissue4en_US
dc.source.journalvolume11en_US
dc.source.pagination340en_US
dc.source.urihttps://www.mdpi.com/journal/minerals
dc.titleProbing the Effect of Water Recycling on Flotation through Anion Spiking Using a Low-Grade Cu–Ni–PGM Ore: The Effect of NO3−, SO42− and S2O32−en_US
dc.typeJournal Articleen_US
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