Precipitation of Heavy Metal Ions (Cu, Fe, Zn, and Pb) from Mining Flotation Effluents Using a Laboratory-Scale Upflow Anaerobic Sludge Blanket Reactor

Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project’s first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotran...

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Published in	Water, air, and soil pollution Vol. 232; no. 5; p. 197
Main Authors	Leal-Gutiérrez, Manuel José, Cuéllar-Briseño, Rodrigo, Castillo-Garduño, Andrei M., Bernal-González, Marisela, Chávez-Castellanos, Ángel Enrique, Solís-Fuentes, Julio Alberto, Durán-Domínguez-de-Bazúa, María-del-Carmen, Bazúa-Rueda, Enrique Rodolfo
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.05.2021 Springer Springer Nature B.V
Subjects	air Alkalinity Anaerobic microorganisms Analysis Atmospheric Protection/Air Quality Control/Air Pollution Bioconversion biotransformation Chemical oxygen demand Chemical precipitation Climate Change/Climate Change Impacts Cluster analysis Copper Earth and Environmental Science Effluents energy Energy sources Environment Environmental monitoring Equipment and supplies Feasibility Feasibility studies Flotation Heavy metals Hydrogeology Iron Laboratories Laboratory equipment Lactate Lactic acid Lead liquids Low concentrations Mass balance Metal concentrations Metal ions Metal sulfates Metal sulfides Metals microbial biomass Microorganisms Mineral industry Mining Mining industry Organic matter oxygen pH effects Precipitation Reactors Reagents recycled water Recycling Recycling (Waste, etc.) Securities Sludge soil pollution Soil Science & Conservation Start up Statistical analysis Statistical methods Sulfate reduction Sulfates Sulfides Sulphate reduction Sulphides temperature upflow anaerobic sludge blanket reactor Upflow anaerobic sludge blanket reactors Waste management Water Quality/Water Pollution Water reuse Zinc Sulfate-reducing microorganisms (SRM) Sulfates (SO Sulfides (S Chemical oxygen demand (COD) ) Flotation effluents Metal precipitation
Online Access	Get full text
ISSN	0049-6979 1573-2932
DOI	10.1007/s11270-021-05042-1

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Abstract	Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project’s first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotransforming metal sulfates into metal sulfides of effluent from flotation units of a mining plant (FE). The second objective was to determine the effect of pH and chemical oxygen demand:sulfate ratio (COD:SO 4 2− ) in the precipitation of heavy metal sulfides. The third objective, which is the subject of this part of the research, was to evaluate the feasibility of this proposal through a mass balance of the metals separated by precipitation through the formation of sulfides by sulfate-reducing microorganisms (SRM), using as energy source carbonaceous compounds from flotation residual organic reagents enriched with lactic acid. To monitor bioconversion effectiveness, various parameters were used: pH-alkalinity factor (α), temperature (T), COD, SO 4 2− , and sulfides (S 2− ). Four metals were considered for this part of the research: Cu, Pb, Zn, and Fe. The UASB system achieved a sulfate bioconversion of 69% and an organic matter removal as COD of 88% after transient state with the best COD:SO 4 2− ratio found. Using a statistical analysis by clusters, metal sulfide production of 74 mg L −1 and removals of 39, 70, 79, and 65%, for Pb, Cu Zn, and Fe, respectively, were obtained. These values were calculated with an initial ratio of COD:SO 4 2− of 0.66 ± 0.2 and pH values around 6 inside the reactor, through anaerobic microbial biomass, indicating that the solution proposed to recycle water in the metal extraction and concentration is feasible after using these systems.
AbstractList	Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project’s first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotransforming metal sulfates into metal sulfides of effluent from flotation units of a mining plant (FE). The second objective was to determine the effect of pH and chemical oxygen demand:sulfate ratio (COD:SO42−) in the precipitation of heavy metal sulfides. The third objective, which is the subject of this part of the research, was to evaluate the feasibility of this proposal through a mass balance of the metals separated by precipitation through the formation of sulfides by sulfate-reducing microorganisms (SRM), using as energy source carbonaceous compounds from flotation residual organic reagents enriched with lactic acid. To monitor bioconversion effectiveness, various parameters were used: pH-alkalinity factor (α), temperature (T), COD, SO42−, and sulfides (S2−). Four metals were considered for this part of the research: Cu, Pb, Zn, and Fe. The UASB system achieved a sulfate bioconversion of 69% and an organic matter removal as COD of 88% after transient state with the best COD:SO42− ratio found. Using a statistical analysis by clusters, metal sulfide production of 74 mg L−1 and removals of 39, 70, 79, and 65%, for Pb, Cu Zn, and Fe, respectively, were obtained. These values were calculated with an initial ratio of COD:SO42− of 0.66 ± 0.2 and pH values around 6 inside the reactor, through anaerobic microbial biomass, indicating that the solution proposed to recycle water in the metal extraction and concentration is feasible after using these systems. Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project’s first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotransforming metal sulfates into metal sulfides of effluent from flotation units of a mining plant (FE). The second objective was to determine the effect of pH and chemical oxygen demand:sulfate ratio (COD:SO₄²⁻) in the precipitation of heavy metal sulfides. The third objective, which is the subject of this part of the research, was to evaluate the feasibility of this proposal through a mass balance of the metals separated by precipitation through the formation of sulfides by sulfate-reducing microorganisms (SRM), using as energy source carbonaceous compounds from flotation residual organic reagents enriched with lactic acid. To monitor bioconversion effectiveness, various parameters were used: pH-alkalinity factor (α), temperature (T), COD, SO₄²⁻, and sulfides (S²⁻). Four metals were considered for this part of the research: Cu, Pb, Zn, and Fe. The UASB system achieved a sulfate bioconversion of 69% and an organic matter removal as COD of 88% after transient state with the best COD:SO₄²⁻ ratio found. Using a statistical analysis by clusters, metal sulfide production of 74 mg L⁻¹ and removals of 39, 70, 79, and 65%, for Pb, Cu Zn, and Fe, respectively, were obtained. These values were calculated with an initial ratio of COD:SO₄²⁻ of 0.66 ± 0.2 and pH values around 6 inside the reactor, through anaerobic microbial biomass, indicating that the solution proposed to recycle water in the metal extraction and concentration is feasible after using these systems. Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project's first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotransforming metal sulfates into metal sulfides of effluent from flotation units of a mining plant (FE). The second objective was to determine the effect of pH and chemical oxygen demand:sulfate ratio (COD:SO.sub.4.sup.2-) in the precipitation of heavy metal sulfides. The third objective, which is the subject of this part of the research, was to evaluate the feasibility of this proposal through a mass balance of the metals separated by precipitation through the formation of sulfides by sulfate-reducing microorganisms (SRM), using as energy source carbonaceous compounds from flotation residual organic reagents enriched with lactic acid. To monitor bioconversion effectiveness, various parameters were used: pH-alkalinity factor ([alpha]), temperature (T), COD, SO.sub.4.sup.2-, and sulfides (S.sup.2-). Four metals were considered for this part of the research: Cu, Pb, Zn, and Fe. The UASB system achieved a sulfate bioconversion of 69% and an organic matter removal as COD of 88% after transient state with the best COD:SO.sub.4.sup.2- ratio found. Using a statistical analysis by clusters, metal sulfide production of 74 mg L.sup.-1 and removals of 39, 70, 79, and 65%, for Pb, Cu Zn, and Fe, respectively, were obtained. These values were calculated with an initial ratio of COD:SO.sub.4.sup.2- of 0.66 ± 0.2 and pH values around 6 inside the reactor, through anaerobic microbial biomass, indicating that the solution proposed to recycle water in the metal extraction and concentration is feasible after using these systems. Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low concentrations of metals. This project’s first objective was to start up a laboratory-scale upflow anaerobic sludge blanket (UASB) reactor for biotransforming metal sulfates into metal sulfides of effluent from flotation units of a mining plant (FE). The second objective was to determine the effect of pH and chemical oxygen demand:sulfate ratio (COD:SO 4 2− ) in the precipitation of heavy metal sulfides. The third objective, which is the subject of this part of the research, was to evaluate the feasibility of this proposal through a mass balance of the metals separated by precipitation through the formation of sulfides by sulfate-reducing microorganisms (SRM), using as energy source carbonaceous compounds from flotation residual organic reagents enriched with lactic acid. To monitor bioconversion effectiveness, various parameters were used: pH-alkalinity factor (α), temperature (T), COD, SO 4 2− , and sulfides (S 2− ). Four metals were considered for this part of the research: Cu, Pb, Zn, and Fe. The UASB system achieved a sulfate bioconversion of 69% and an organic matter removal as COD of 88% after transient state with the best COD:SO 4 2− ratio found. Using a statistical analysis by clusters, metal sulfide production of 74 mg L −1 and removals of 39, 70, 79, and 65%, for Pb, Cu Zn, and Fe, respectively, were obtained. These values were calculated with an initial ratio of COD:SO 4 2− of 0.66 ± 0.2 and pH values around 6 inside the reactor, through anaerobic microbial biomass, indicating that the solution proposed to recycle water in the metal extraction and concentration is feasible after using these systems.
ArticleNumber	197
Audience	Academic
Author	Solís-Fuentes, Julio Alberto Bernal-González, Marisela Leal-Gutiérrez, Manuel José Chávez-Castellanos, Ángel Enrique Bazúa-Rueda, Enrique Rodolfo Durán-Domínguez-de-Bazúa, María-del-Carmen Cuéllar-Briseño, Rodrigo Castillo-Garduño, Andrei M.
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PublicationDate	20210500 2021-05-00 20210501
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PublicationSubtitle	An International Journal of Environmental Pollution
PublicationTitle	Water, air, and soil pollution
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PublicationYear	2021
Publisher	Springer International Publishing Springer Springer Nature B.V
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Snippet	Metal mining extraction and concentration need water. The recycling of liquid effluents reduces its consumption. This recycled water must contain low...
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SubjectTerms	air Alkalinity Anaerobic microorganisms Analysis Atmospheric Protection/Air Quality Control/Air Pollution Bioconversion biotransformation Chemical oxygen demand Chemical precipitation Climate Change/Climate Change Impacts Cluster analysis Copper Earth and Environmental Science Effluents energy Energy sources Environment Environmental monitoring Equipment and supplies Feasibility Feasibility studies Flotation Heavy metals Hydrogeology Iron Laboratories Laboratory equipment Lactate Lactic acid Lead liquids Low concentrations Mass balance Metal concentrations Metal ions Metal sulfates Metal sulfides Metals microbial biomass Microorganisms Mineral industry Mining Mining industry Organic matter oxygen pH effects Precipitation Reactors Reagents recycled water Recycling Recycling (Waste, etc.) Securities Sludge soil pollution Soil Science & Conservation Start up Statistical analysis Statistical methods Sulfate reduction Sulfates Sulfides Sulphate reduction Sulphides temperature upflow anaerobic sludge blanket reactor Upflow anaerobic sludge blanket reactors Waste management Water Quality/Water Pollution Water reuse Zinc
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Title	Precipitation of Heavy Metal Ions (Cu, Fe, Zn, and Pb) from Mining Flotation Effluents Using a Laboratory-Scale Upflow Anaerobic Sludge Blanket Reactor
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