How can the efficiency of flotation processing of complex ores be improved?
Flotation beneficiation plays a leading role in the processing most ores. The efficiency of this process is ensured by the correct selection of operating modes, which involves choosing the most selective reagents and determining their optimal consumption. The conducted research, presented in the journal Mining Science and Technology, allowed to find a new methodological approach to the study of ore flotation beneficiation using ionometry methods. The data obtained from ion-selective sensors significantly deepen our insight into the transformations occurring during the flotation process and allow for consideration of possible adverse factors that hinder effective process progression. A universal flowchart for flotation studies with ion-selective sensors has been developed, facilitating the application of this approach to various ores. The implementation of the results from this comparative analysis has led to a 7.8% increase in beneficiation efficiency while reducing reagent consumption. Additionally, the insights gained into the electrochemical processes occurring allowed for assumptions about the adverse factors affecting flotation outcomes. In conclusion, a model for the potential application of this approach at existing enterprises was proposed, including the implementation of an βintelligent assistantβ for flotation operators based on the developed electrochemical models.
For more information, see the article:
π Yakovleva T.A., Romashev A.O., Mashevsky G.N. Enhancing flotation beneficiation efficiency of complex ores using ionometry methods. Mining Science and Technology (Russia). 2024;9(2):146-157. https://doi.org/10.17073/2500-0632-2023-08-145
Subscribe to the journal's Telegram channel:
πt.iss.one/MinSciTechπ
#inenglish #MST #flotation #beneficiation #ore #method #ionometry #ion #reagent #experiment #electrode #concentrate #pulp #grinding #modification #selectivity #aeration #sorption #corrosion #depression #kinetics #modeling #optimization #sensor #membrane #xanthate #sulfide #control
Flotation beneficiation plays a leading role in the processing most ores. The efficiency of this process is ensured by the correct selection of operating modes, which involves choosing the most selective reagents and determining their optimal consumption. The conducted research, presented in the journal Mining Science and Technology, allowed to find a new methodological approach to the study of ore flotation beneficiation using ionometry methods. The data obtained from ion-selective sensors significantly deepen our insight into the transformations occurring during the flotation process and allow for consideration of possible adverse factors that hinder effective process progression. A universal flowchart for flotation studies with ion-selective sensors has been developed, facilitating the application of this approach to various ores. The implementation of the results from this comparative analysis has led to a 7.8% increase in beneficiation efficiency while reducing reagent consumption. Additionally, the insights gained into the electrochemical processes occurring allowed for assumptions about the adverse factors affecting flotation outcomes. In conclusion, a model for the potential application of this approach at existing enterprises was proposed, including the implementation of an βintelligent assistantβ for flotation operators based on the developed electrochemical models.
For more information, see the article:
π Yakovleva T.A., Romashev A.O., Mashevsky G.N. Enhancing flotation beneficiation efficiency of complex ores using ionometry methods. Mining Science and Technology (Russia). 2024;9(2):146-157. https://doi.org/10.17073/2500-0632-2023-08-145
Subscribe to the journal's Telegram channel:
πt.iss.one/MinSciTechπ
#inenglish #MST #flotation #beneficiation #ore #method #ionometry #ion #reagent #experiment #electrode #concentrate #pulp #grinding #modification #selectivity #aeration #sorption #corrosion #depression #kinetics #modeling #optimization #sensor #membrane #xanthate #sulfide #control
mst.misis.ru
Enhancing flotation beneficiation efficiency of complex ores using ionometry methods | Yakovleva | Mining Science and Technologyβ¦
π3β€1π₯1π1
How can we increase residual uranium extraction from previously worked-out blocks without significant cost? What factors influence the choice of solutions?
One of the most important factors in the formation of residual uranium reserves in worked-out blocks is the presence of clay minerals in the ore horizon. In this regard, the authors of the article published in the journal "Mining Science and Technology" conducted a number of studies on the adverse and positive effects of clay minerals on ISL process. Water permeability and relatively good filtration (not less than 0.5β1 m/day) of ores and rocks of a productive horizon (aquifer) is the most important hydrogeological factors affecting the performance of uranium ISL. The second most important hydrogeological factor is the lack of fluid communication between the productive aquifer and nonproductive aquifers, i.e., the obligatory presence of aquicludes.
For more information, see the article:
π Petukhov O.F., Khalimov I.U., Istomin V.P., Karimov N.Π. The effect of clay minerals on in-situ leaching of uranium. Mining Science and Technology (Russia). 2023;8(1):39-46. https://doi.org/10.17073/2500-0632-2022-10-20
Subscribe to the journal's Telegram channel:
πt.iss.one/MinSciTechπ
#inenglish #MST #uranium #insituleaching #ISL #clay #clayminerals #filtration #diffusioncoefficient #permeability #waterpermeability #sorption #montmorillonite #kaolinite #aquiclude #nitrateions #cationexchangecapacity #CEC #bentonite #ore #horizon #orehorizon #uraniumreserves #residualuraniumreserves #hydrogeologicalfactors #sulfatesolutions #bicarbonatesolutions #staticuraniumexchangecapacity #colloidalspecies #filtrationcoefficient #aquiclude #protectiveaquiclude #uraniumsorption #clayswelling #permeability #sands #sandstone #sandstonetypedeposits #uraniumextraction #claycontent #uraniumlosses #clayaquicludeprotectiveaction #ore
One of the most important factors in the formation of residual uranium reserves in worked-out blocks is the presence of clay minerals in the ore horizon. In this regard, the authors of the article published in the journal "Mining Science and Technology" conducted a number of studies on the adverse and positive effects of clay minerals on ISL process. Water permeability and relatively good filtration (not less than 0.5β1 m/day) of ores and rocks of a productive horizon (aquifer) is the most important hydrogeological factors affecting the performance of uranium ISL. The second most important hydrogeological factor is the lack of fluid communication between the productive aquifer and nonproductive aquifers, i.e., the obligatory presence of aquicludes.
For more information, see the article:
π Petukhov O.F., Khalimov I.U., Istomin V.P., Karimov N.Π. The effect of clay minerals on in-situ leaching of uranium. Mining Science and Technology (Russia). 2023;8(1):39-46. https://doi.org/10.17073/2500-0632-2022-10-20
Subscribe to the journal's Telegram channel:
πt.iss.one/MinSciTechπ
#inenglish #MST #uranium #insituleaching #ISL #clay #clayminerals #filtration #diffusioncoefficient #permeability #waterpermeability #sorption #montmorillonite #kaolinite #aquiclude #nitrateions #cationexchangecapacity #CEC #bentonite #ore #horizon #orehorizon #uraniumreserves #residualuraniumreserves #hydrogeologicalfactors #sulfatesolutions #bicarbonatesolutions #staticuraniumexchangecapacity #colloidalspecies #filtrationcoefficient #aquiclude #protectiveaquiclude #uraniumsorption #clayswelling #permeability #sands #sandstone #sandstonetypedeposits #uraniumextraction #claycontent #uraniumlosses #clayaquicludeprotectiveaction #ore
mst.misis.ru
The effect of clay minerals on in-situ leaching of uranium | Petukhov | Mining Science and Technology (Russia)
π3β€1β‘1π₯1π1π©1π―1
We present the articles of the first issue of scientific journal "Mining Science and Technologyβ (Russia) for 2025:
Scientists conducting research at the mines of the VVerkhnekamsk potassium-magnesium salt deposit (VPMSD) discovered an interesting pattern: gas-air surveys show that the volume of gaseous impurities in the main ventilation drifts is often significantly lower than in the working areas of dead-end workings. This phenomenon of decreasing gas concentrations along the ventilation airflow path is explained not only by the dilution of impurities due to fresh air leaks but also by the chemical neutralization of gases through interaction with the potash rock mass. Previously conducted laboratory studies confirmed the ability of sylvinite (NaCl + KCl) to absorb toxic and combustible gases. This paper presents the results of field studies at one of the VPMSD mines, where the dynamics of gas impurities in the workings were studied, taking into account both chemical processes and ventilation factors. Specialists measured the concentration of combustible and toxic gases in seams of different mineral compositions and analyzed the influence of potash salt properties on the gas composition in long dead-end workings. Laboratory analysis of the collected air samples, performed by chromatographic method using the "CHROMOS GH-1000" instrument, made it possible to quantitatively assess the contribution of gas neutralization and dilution processes to the reduction of harmful impurity concentrations. The results showed that in long dead-end workings of seam AB (100 m or more), the content of gaseous impurities consistently decreases as the distance from the dead end to the mouth of the working increases. The study also examined other factors influencing changes in the gas composition in mine workings.
For more information, see the article:
π Starikov A.N., Maltsev S.V., Sukhanov A.E. Influence of the sorption properties of potash salts on the gas environment in dead-end mine workings. Mining Science and Technology (Russia). 2025;10(1):25-33. https://doi.org/10.17073/2500-0632-2024-01-210
Subscribe to our Telegram channel:
π t.iss.one/MinSciTech π
#InEnglish #MST #mine #gas #sorption #leaks #sylvinite #methane #CO #CO2 #H2S #ventilation #shaft #safety #chemistry #science #mining #analysis #experiment #laboratory #air #seam #measurement #point #length #path #jet #face #mouth #volume #harm #risk #standard #method #device #data #result #experience #salt #KCl #NaCl #zone #deadend #tube #speed #pressure #balance #neutralization
Scientists conducting research at the mines of the VVerkhnekamsk potassium-magnesium salt deposit (VPMSD) discovered an interesting pattern: gas-air surveys show that the volume of gaseous impurities in the main ventilation drifts is often significantly lower than in the working areas of dead-end workings. This phenomenon of decreasing gas concentrations along the ventilation airflow path is explained not only by the dilution of impurities due to fresh air leaks but also by the chemical neutralization of gases through interaction with the potash rock mass. Previously conducted laboratory studies confirmed the ability of sylvinite (NaCl + KCl) to absorb toxic and combustible gases. This paper presents the results of field studies at one of the VPMSD mines, where the dynamics of gas impurities in the workings were studied, taking into account both chemical processes and ventilation factors. Specialists measured the concentration of combustible and toxic gases in seams of different mineral compositions and analyzed the influence of potash salt properties on the gas composition in long dead-end workings. Laboratory analysis of the collected air samples, performed by chromatographic method using the "CHROMOS GH-1000" instrument, made it possible to quantitatively assess the contribution of gas neutralization and dilution processes to the reduction of harmful impurity concentrations. The results showed that in long dead-end workings of seam AB (100 m or more), the content of gaseous impurities consistently decreases as the distance from the dead end to the mouth of the working increases. The study also examined other factors influencing changes in the gas composition in mine workings.
For more information, see the article:
π Starikov A.N., Maltsev S.V., Sukhanov A.E. Influence of the sorption properties of potash salts on the gas environment in dead-end mine workings. Mining Science and Technology (Russia). 2025;10(1):25-33. https://doi.org/10.17073/2500-0632-2024-01-210
Subscribe to our Telegram channel:
π t.iss.one/MinSciTech π
#InEnglish #MST #mine #gas #sorption #leaks #sylvinite #methane #CO #CO2 #H2S #ventilation #shaft #safety #chemistry #science #mining #analysis #experiment #laboratory #air #seam #measurement #point #length #path #jet #face #mouth #volume #harm #risk #standard #method #device #data #result #experience #salt #KCl #NaCl #zone #deadend #tube #speed #pressure #balance #neutralization
β€1π1π₯1π1π1