Recovery of manganese oxides from spent alkaline and zinc–carbon batteries. An application as catalysts for VOCs elimination

•Manganese oxides were synthesized using spent batteries as raw materials.•Spent alkaline and zinc–carbon size AA batteries were used.•A biohydrometallurgical process was employed to bio-lixiviate batteries.•Manganese oxides were active in the oxidation of VOCs (ethanol and heptane). Manganese, in t...

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Published inWaste management (Elmsford) Vol. 33; no. 6; pp. 1483 - 1490
Main Authors Gallegos, María V., Falco, Lorena R., Peluso, Miguel A., Sambeth, Jorge E., Thomas, Horacio J.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.06.2013
Elsevier
Subjects
Acidithiobacillus thiooxidans
Acidithiobacillus thiooxidans - metabolism
Applied sciences
BACTERIA
Batteries
Biohydrometallurgy
Bioreactors - microbiology
Carbon
CARBON DIOXIDE
Catalysis
Catalysts
CATIONS
Chemical Precipitation
ELECTRIC BATTERIES
Electric Power Supplies
ELECTROLYSIS
ETHANOL
Ethanol - chemistry
Ethyl alcohol
Exact sciences and technology
FOURIER TRANSFORM SPECTROMETERS
General treatment and storage processes
HEPTANE
Heptanes - chemistry
INFRARED SPECTRA
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
LEACHING
MANGANESE
Manganese Compounds - isolation & purification
MANGANESE IONS
MANGANESE OXIDES
MATERIALS RECOVERY
OXIDATION
Oxides
Oxides - isolation & purification
PILOT PLANTS
Pollution
Potassium Permanganate - chemistry
PRECIPITATION
Recycling
Refuse Disposal - methods
SODIUM COMPOUNDS
Spectroscopy, Fourier Transform Infrared
VOCs
Volatile organic compounds
Wastes
X-RAY DIFFRACTION
X-RAY PHOTOELECTRON SPECTROSCOPY
Zinc - chemistry
VOCs
Manganese oxides
Batteries
Recycling
Biohydrometallurgy
Airlift reactor
Catalytic reaction
Chemical precipitation
Carbon dioxide
Volatile organic compound
Raw materials
Bioreactor
Electrolysis
Battery
Solid waste
Bacteria
Lixiviation
Oxidation
Leachate
Catalyst
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Abstract •Manganese oxides were synthesized using spent batteries as raw materials.•Spent alkaline and zinc–carbon size AA batteries were used.•A biohydrometallurgical process was employed to bio-lixiviate batteries.•Manganese oxides were active in the oxidation of VOCs (ethanol and heptane). Manganese, in the form of oxide, was recovered from spent alkaline and zinc–carbon batteries employing a biohydrometallurgy process, using a pilot plant consisting in: an air-lift bioreactor (containing an acid-reducing medium produced by an Acidithiobacillus thiooxidans bacteria immobilized on elemental sulfur); a leaching reactor (were battery powder is mixed with the acid-reducing medium) and a recovery reactor. Two different manganese oxides were recovered from the leachate liquor: one of them by electrolysis (EMO) and the other by a chemical precipitation with KMnO4 solution (CMO). The non-leached solid residue was also studied (RMO). The solids were compared with a MnOx synthesized in our laboratory. The characterization by XRD, FTIR and XPS reveal the presence of Mn2O3 in the EMO and the CMO samples, together with some Mn4+ cations. In the solid not extracted by acidic leaching (RMO) the main phase detected was Mn3O4. The catalytic performance of the oxides was studied in the complete oxidation of ethanol and heptane. Complete conversion of ethanol occurs at 200°C, while heptane requires more than 400°C. The CMO has the highest oxide selectivity to CO2. The results show that manganese oxides obtained using spent alkaline and zinc–carbon batteries as raw materials, have an interesting performance as catalysts for elimination of VOCs.
AbstractList Manganese, in the form of oxide, was recovered from spent alkaline and zinc-carbon batteries employing a biohydrometallurgy process, using a pilot plant consisting in: an air-lift bioreactor (containing an acid-reducing medium produced by an Acidithiobacillus thiooxidans bacteria immobilized on elemental sulfur); a leaching reactor (were battery powder is mixed with the acid-reducing medium) and a recovery reactor. Two different manganese oxides were recovered from the leachate liquor: one of them by electrolysis (EMO) and the other by a chemical precipitation with KMnO4 solution (CMO). The non-leached solid residue was also studied (RMO). The solids were compared with a MnO x synthesized in our laboratory. The characterization by XRD, FTIR and XPS reveal the presence of Mn2O3 in the EMO and the CMO samples, together with some Mn4+ cations. In the solid not extracted by acidic leaching (RMO) the main phase detected was Mn3O4. The catalytic performance of the oxides was studied in the complete oxidation of ethanol and heptane. Complete conversion of ethanol occurs at 200 degree C, while heptane requires more than 400 degree C. The CMO has the highest oxide selectivity to CO2. The results show that manganese oxides obtained using spent alkaline and zinc-carbon batteries as raw materials, have an interesting performance as catalysts for elimination of VOCs.
•Manganese oxides were synthesized using spent batteries as raw materials.•Spent alkaline and zinc–carbon size AA batteries were used.•A biohydrometallurgical process was employed to bio-lixiviate batteries.•Manganese oxides were active in the oxidation of VOCs (ethanol and heptane). Manganese, in the form of oxide, was recovered from spent alkaline and zinc–carbon batteries employing a biohydrometallurgy process, using a pilot plant consisting in: an air-lift bioreactor (containing an acid-reducing medium produced by an Acidithiobacillus thiooxidans bacteria immobilized on elemental sulfur); a leaching reactor (were battery powder is mixed with the acid-reducing medium) and a recovery reactor. Two different manganese oxides were recovered from the leachate liquor: one of them by electrolysis (EMO) and the other by a chemical precipitation with KMnO4 solution (CMO). The non-leached solid residue was also studied (RMO). The solids were compared with a MnOx synthesized in our laboratory. The characterization by XRD, FTIR and XPS reveal the presence of Mn2O3 in the EMO and the CMO samples, together with some Mn4+ cations. In the solid not extracted by acidic leaching (RMO) the main phase detected was Mn3O4. The catalytic performance of the oxides was studied in the complete oxidation of ethanol and heptane. Complete conversion of ethanol occurs at 200°C, while heptane requires more than 400°C. The CMO has the highest oxide selectivity to CO2. The results show that manganese oxides obtained using spent alkaline and zinc–carbon batteries as raw materials, have an interesting performance as catalysts for elimination of VOCs.
Manganese, in the form of oxide, was recovered from spent alkaline and zinc-carbon batteries employing a biohydrometallurgy process, using a pilot plant consisting in: an air-lift bioreactor (containing an acid-reducing medium produced by an Acidithiobacillus thiooxidans bacteria immobilized on elemental sulfur); a leaching reactor (were battery powder is mixed with the acid-reducing medium) and a recovery reactor. Two different manganese oxides were recovered from the leachate liquor: one of them by electrolysis (EMO) and the other by a chemical precipitation with KMnO4 solution (CMO). The non-leached solid residue was also studied (RMO). The solids were compared with a MnOx synthesized in our laboratory. The characterization by XRD, FTIR and XPS reveal the presence of Mn2O3 in the EMO and the CMO samples, together with some Mn(4+) cations. In the solid not extracted by acidic leaching (RMO) the main phase detected was Mn3O4. The catalytic performance of the oxides was studied in the complete oxidation of ethanol and heptane. Complete conversion of ethanol occurs at 200°C, while heptane requires more than 400°C. The CMO has the highest oxide selectivity to CO2. The results show that manganese oxides obtained using spent alkaline and zinc-carbon batteries as raw materials, have an interesting performance as catalysts for elimination of VOCs.
Highlights: • Manganese oxides were synthesized using spent batteries as raw materials. • Spent alkaline and zinc–carbon size AA batteries were used. • A biohydrometallurgical process was employed to bio-lixiviate batteries. • Manganese oxides were active in the oxidation of VOCs (ethanol and heptane). - Abstract: Manganese, in the form of oxide, was recovered from spent alkaline and zinc–carbon batteries employing a biohydrometallurgy process, using a pilot plant consisting in: an air-lift bioreactor (containing an acid-reducing medium produced by an Acidithiobacillus thiooxidans bacteria immobilized on elemental sulfur); a leaching reactor (were battery powder is mixed with the acid-reducing medium) and a recovery reactor. Two different manganese oxides were recovered from the leachate liquor: one of them by electrolysis (EMO) and the other by a chemical precipitation with KMnO{sub 4} solution (CMO). The non-leached solid residue was also studied (RMO). The solids were compared with a MnO{sub x} synthesized in our laboratory. The characterization by XRD, FTIR and XPS reveal the presence of Mn{sub 2}O{sub 3} in the EMO and the CMO samples, together with some Mn{sup 4+} cations. In the solid not extracted by acidic leaching (RMO) the main phase detected was Mn{sub 3}O{sub 4}. The catalytic performance of the oxides was studied in the complete oxidation of ethanol and heptane. Complete conversion of ethanol occurs at 200 °C, while heptane requires more than 400 °C. The CMO has the highest oxide selectivity to CO{sub 2}. The results show that manganese oxides obtained using spent alkaline and zinc–carbon batteries as raw materials, have an interesting performance as catalysts for elimination of VOCs.
Author Thomas, Horacio J.
Falco, Lorena R.
Sambeth, Jorge E.
Gallegos, María V.
Peluso, Miguel A.
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  surname: Gallegos
  fullname: Gallegos, María V.
  email: plapimu@yahoo.com.ar
  organization: Pla.Pi.Mu-Planta Piloto Multipropósito, (CICPBA-UNLP) Cno. Centenario y 505, M.B. Gonnet, Buenos Aires, Argentina
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  givenname: Lorena R.
  surname: Falco
  fullname: Falco, Lorena R.
  email: mlfalco@quimica.unlp.edu.ar
  organization: Pla.Pi.Mu-Planta Piloto Multipropósito, (CICPBA-UNLP) Cno. Centenario y 505, M.B. Gonnet, Buenos Aires, Argentina
– sequence: 3
  givenname: Miguel A.
  surname: Peluso
  fullname: Peluso, Miguel A.
  email: apelu@quimica.unlp.edu.ar
  organization: Centro de Investigación y Desarrollo en Ciencias Aplicadas, “Dr. J. Ronco” CINDECA (CONICET CCT La Plata), 47 N°257, La Plata, Buenos Aires, Argentina
– sequence: 4
  givenname: Jorge E.
  surname: Sambeth
  fullname: Sambeth, Jorge E.
  email: sambeth@quimica.unlp.edu.ar
  organization: Centro de Investigación y Desarrollo en Ciencias Aplicadas, “Dr. J. Ronco” CINDECA (CONICET CCT La Plata), 47 N°257, La Plata, Buenos Aires, Argentina
– sequence: 5
  givenname: Horacio J.
  surname: Thomas
  fullname: Thomas, Horacio J.
  organization: Pla.Pi.Mu-Planta Piloto Multipropósito, (CICPBA-UNLP) Cno. Centenario y 505, M.B. Gonnet, Buenos Aires, Argentina
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Issue 6
Keywords VOCs
Manganese oxides
Batteries
Recycling
Biohydrometallurgy
Airlift reactor
Catalytic reaction
Chemical precipitation
Carbon dioxide
Volatile organic compound
Raw materials
Bioreactor
Electrolysis
Battery
Solid waste
Bacteria
Lixiviation
Oxidation
Leachate
Catalyst
Language English
License CC BY 4.0
Copyright © 2013 Elsevier Ltd. All rights reserved.
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Snippet •Manganese oxides were synthesized using spent batteries as raw materials.•Spent alkaline and zinc–carbon size AA batteries were used.•A biohydrometallurgical...
Manganese, in the form of oxide, was recovered from spent alkaline and zinc-carbon batteries employing a biohydrometallurgy process, using a pilot plant...
Highlights: • Manganese oxides were synthesized using spent batteries as raw materials. • Spent alkaline and zinc–carbon size AA batteries were used. • A...
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SubjectTerms Acidithiobacillus thiooxidans
Acidithiobacillus thiooxidans - metabolism
Applied sciences
BACTERIA
Batteries
Biohydrometallurgy
Bioreactors - microbiology
Carbon
CARBON DIOXIDE
Catalysis
Catalysts
CATIONS
Chemical Precipitation
ELECTRIC BATTERIES
Electric Power Supplies
ELECTROLYSIS
ETHANOL
Ethanol - chemistry
Ethyl alcohol
Exact sciences and technology
FOURIER TRANSFORM SPECTROMETERS
General treatment and storage processes
HEPTANE
Heptanes - chemistry
INFRARED SPECTRA
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
LEACHING
MANGANESE
Manganese Compounds - isolation & purification
MANGANESE IONS
MANGANESE OXIDES
MATERIALS RECOVERY
OXIDATION
Oxides
Oxides - isolation & purification
PILOT PLANTS
Pollution
Potassium Permanganate - chemistry
PRECIPITATION
Recycling
Refuse Disposal - methods
SODIUM COMPOUNDS
Spectroscopy, Fourier Transform Infrared
VOCs
Volatile organic compounds
Wastes
X-RAY DIFFRACTION
X-RAY PHOTOELECTRON SPECTROSCOPY
Zinc - chemistry
Title Recovery of manganese oxides from spent alkaline and zinc–carbon batteries. An application as catalysts for VOCs elimination
URI https://dx.doi.org/10.1016/j.wasman.2013.03.006
https://www.ncbi.nlm.nih.gov/pubmed/23562448
https://search.proquest.com/docview/1369236522
https://search.proquest.com/docview/1642612376
https://search.proquest.com/docview/1660088930
https://www.osti.gov/biblio/22300364
Volume 33
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