Production of engineered-biochar under different pyrolysis conditions for phosphorus removal from aqueous solution

Production of engineered-biochar under different pyrolysis conditions for phosphorus removal from aqueous solution

Phosphorus (P) recovery from wastewater through biochar is an alternative to build a sustainable circular economy and save non-renewable P reservoirs. The efficiency of cations in removing P from wastewater under different pyrolysis conditions is still lacking. We aimed at studying P adsorption and...

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Published in:The Science of the total environment Vol. 816; p. 151559
Main Authors: Nardis, Bárbara Olinda, Franca, José Romão, Carneiro, Jefferson Santana da Silva, Soares, Jenaina Ribeiro, Guilherme, Luiz Roberto Guimarães, Silva, Carlos Alberto, Melo, Leônidas Carrijo Azevedo
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 10-04-2022
Subjects:
Adsorption
Animals
Biochar activation
Biochar-cation composites
Charcoal
Engineered-biochar
Phosphorus
Pyrolysis
Secondary P sources
Swine
Wastewater cleaning
Water Pollutants, Chemical - analysis
Engineered-biochar
Wastewater cleaning
Biochar activation
Biochar-cation composites
Secondary P sources
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Abstract Phosphorus (P) recovery from wastewater through biochar is an alternative to build a sustainable circular economy and save non-renewable P reservoirs. The efficiency of cations in removing P from wastewater under different pyrolysis conditions is still lacking. We aimed at studying P adsorption and release from biochar enriched with Al3+ and Mg2+, prepared under air-limited and N2-flow pyrolysis conditions. Biochar samples were produced from pig manure (PMB) and impregnated, separately, with 20% of AlCl3 and MgCl2 solutions on both pyrolysis conditions. The materials were characterized for pH, electrical conductivity (EC), total nutrient content, ash, specific surface area (SSA), pore-volume, FTIR, XRD, and SEM-EDX. Phosphorus adsorption was studied by kinetics and adsorption isotherms, as well as desorption. The biochar impregnated with Mg2+ and produced in the muffle furnace achieved the maximum P adsorption (231 mg g−1), and 100% of the adsorbed P was released in solutions of Mehlich-1 and citric acid 2%. The pyrolysis conditions had a small or no influence on the biochar properties governing P adsorption, such as chemical functional groups, surface area, quantity and size of pores, and formation of synthetic minerals. Therefore, it is possible to produce biochar without using N2 as a carrier gas when it comes to P adsorption studies. Mechanisms of P removal comprise precipitation with cations, surface complexation, ligand exchange reactions, and electrostatic attraction on the biochar surface. Overall, Mg-impregnated biochar is a suitable matrix to remove P from aqueous media and to add value to organic residues while producing an environmentally friendly material for reuse in soils. [Display omitted] •Biochar loaded with Al and Mg increases their P adsorption capacity.•Biochar loaded with Mg showed the best efficiency for P removal.•Biochar production in muffle furnace is preferred for increasing P removal capacity•Precipitation and electrostatic attraction are the main mechanisms of P removal
AbstractList Phosphorus (P) recovery from wastewater through biochar is an alternative to build a sustainable circular economy and save non-renewable P reservoirs. The efficiency of cations in removing P from wastewater under different pyrolysis conditions is still lacking. We aimed at studying P adsorption and release from biochar enriched with Al3+ and Mg2+, prepared under air-limited and N2-flow pyrolysis conditions. Biochar samples were produced from pig manure (PMB) and impregnated, separately, with 20% of AlCl3 and MgCl2 solutions on both pyrolysis conditions. The materials were characterized for pH, electrical conductivity (EC), total nutrient content, ash, specific surface area (SSA), pore-volume, FTIR, XRD, and SEM-EDX. Phosphorus adsorption was studied by kinetics and adsorption isotherms, as well as desorption. The biochar impregnated with Mg2+ and produced in the muffle furnace achieved the maximum P adsorption (231 mg g−1), and 100% of the adsorbed P was released in solutions of Mehlich-1 and citric acid 2%. The pyrolysis conditions had a small or no influence on the biochar properties governing P adsorption, such as chemical functional groups, surface area, quantity and size of pores, and formation of synthetic minerals. Therefore, it is possible to produce biochar without using N2 as a carrier gas when it comes to P adsorption studies. Mechanisms of P removal comprise precipitation with cations, surface complexation, ligand exchange reactions, and electrostatic attraction on the biochar surface. Overall, Mg-impregnated biochar is a suitable matrix to remove P from aqueous media and to add value to organic residues while producing an environmentally friendly material for reuse in soils. [Display omitted] •Biochar loaded with Al and Mg increases their P adsorption capacity.•Biochar loaded with Mg showed the best efficiency for P removal.•Biochar production in muffle furnace is preferred for increasing P removal capacity•Precipitation and electrostatic attraction are the main mechanisms of P removal
Phosphorus (P) recovery from wastewater through biochar is an alternative to build a sustainable circular economy and save non-renewable P reservoirs. The efficiency of cations in removing P from wastewater under different pyrolysis conditions is still lacking. We aimed at studying P adsorption and release from biochar enriched with Al and Mg , prepared under air-limited and N -flow pyrolysis conditions. Biochar samples were produced from pig manure (PMB) and impregnated, separately, with 20% of AlCl and MgCl solutions on both pyrolysis conditions. The materials were characterized for pH, electrical conductivity (EC), total nutrient content, ash, specific surface area (SSA), pore-volume, FTIR, XRD, and SEM-EDX. Phosphorus adsorption was studied by kinetics and adsorption isotherms, as well as desorption. The biochar impregnated with Mg and produced in the muffle furnace achieved the maximum P adsorption (231 mg g ), and 100% of the adsorbed P was released in solutions of Mehlich-1 and citric acid 2%. The pyrolysis conditions had a small or no influence on the biochar properties governing P adsorption, such as chemical functional groups, surface area, quantity and size of pores, and formation of synthetic minerals. Therefore, it is possible to produce biochar without using N as a carrier gas when it comes to P adsorption studies. Mechanisms of P removal comprise precipitation with cations, surface complexation, ligand exchange reactions, and electrostatic attraction on the biochar surface. Overall, Mg-impregnated biochar is a suitable matrix to remove P from aqueous media and to add value to organic residues while producing an environmentally friendly material for reuse in soils.
ArticleNumber 151559
Author Carneiro, Jefferson Santana da Silva
Soares, Jenaina Ribeiro
Melo, Leônidas Carrijo Azevedo
Franca, José Romão
Guilherme, Luiz Roberto Guimarães
Silva, Carlos Alberto
Nardis, Bárbara Olinda
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  givenname: José Romão
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  givenname: Jefferson Santana da Silva
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  givenname: Jenaina Ribeiro
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  givenname: Luiz Roberto Guimarães
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  givenname: Carlos Alberto
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  givenname: Leônidas Carrijo Azevedo
  surname: Melo
  fullname: Melo, Leônidas Carrijo Azevedo
  email: leonidas.melo@ufla.br
  organization: Department of Soil Science, School of Agricultural Sciences, Federal University of Lavras, 37200-900 Lavras, Minas Gerais, Brazil
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Keywords Engineered-biochar
Wastewater cleaning
Biochar activation
Biochar-cation composites
Secondary P sources
Language English
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Snippet Phosphorus (P) recovery from wastewater through biochar is an alternative to build a sustainable circular economy and save non-renewable P reservoirs. The...
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SubjectTerms Adsorption
Animals
Biochar activation
Biochar-cation composites
Charcoal
Engineered-biochar
Phosphorus
Pyrolysis
Secondary P sources
Swine
Wastewater cleaning
Water Pollutants, Chemical - analysis
Title Production of engineered-biochar under different pyrolysis conditions for phosphorus removal from aqueous solution
URI https://dx.doi.org/10.1016/j.scitotenv.2021.151559
https://www.ncbi.nlm.nih.gov/pubmed/34785233
https://search.proquest.com/docview/2598539984
Volume 816
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