Effective adsorption of cadmium and nickel ions in mono and bicomponent systems using eco-friendly adsorbents prepared from peanut shells

Effective adsorption of cadmium and nickel ions in mono and bicomponent systems using eco-friendly adsorbents prepared from peanut shells

The work investigates the potential of peanut shells, an abundant agro-industrial waste, to serve as an adsorbent precursor for the effective and simple treatment of effluents loaded with cadmium and nickel ions. Among the adsorbents prepared, carbonized peanut shell (CCarb), due to its higher adsor...

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Veröffentlicht in:Environmental research 2024-04, Vol.247, p.118220-118220, Article 118220
Hauptverfasser: Pessôa, Natália Trindade, Sales, Deivson Cesar Silva, Do Nascimento, Graziele Elisandra, dos Santos, Jean Heliton Lopes, Silva, Marina Nunes dos Santos, Napoleão, Daniella Carla, Rodríguez-Díaz, Joan Mamnuel, Duarte, Marta Maria Menezez Bezerra
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Adsorption
Agro-industrial waste
Biochar
Metal ions
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container_end_page 118220
container_issue
container_start_page 118220
container_title Environmental research
container_volume 247
creator Pessôa, Natália Trindade
Sales, Deivson Cesar Silva
Do Nascimento, Graziele Elisandra
dos Santos, Jean Heliton Lopes
Silva, Marina Nunes dos Santos
Napoleão, Daniella Carla
Rodríguez-Díaz, Joan Mamnuel
Duarte, Marta Maria Menezez Bezerra
description The work investigates the potential of peanut shells, an abundant agro-industrial waste, to serve as an adsorbent precursor for the effective and simple treatment of effluents loaded with cadmium and nickel ions. Among the adsorbents prepared, carbonized peanut shell (CCarb), due to its higher adsorption capacity, proved to be the most effective compared to carbonized and activated peanut shell (CATQ). The carbonization process led to structural changes, which resulted in an increase in surface area (around 6 times more in CATQ) and pore volume (around 3 times more in CATQ). Even so, the amount of H+ acid sites due to acid activation produced unfavorable effects for adsorption. Hydroxyl, carboxyl and carbonyl groups were identified on the adsorbent surface which presented favorable charges for metal adsorption. This improvement propels the carbonized variant to the forefront, demonstrating the highest adsorption capacity and reaching equilibrium in less than 90 and 60 min for cadmium and nickel ions, respectively. In both monocomponent and bicomponent systems concentrations greater than 40 ppm signify an increase in adsorption capacity for Ni2+. The experimental data best fit the Freundlich model, showing maximum adsorption capacities of 17.04 mg g−1 for cadmium and 31.28 mg g−1 for nickel. Despite the antagonistic effect observed in the bicomponent system, this study concludes by underlining the promise of activated carbon from peanut shells to harmonize technical and environmental concerns. [Display omitted] •Valorization of peanut shells as adsorbent for the removal of Cd2+ and Ni2+ ions.•Evidence of antagonistic adsorption process between Cd2+ and Ni2+ ions on the CCab.•Ccab exhibited a Cd2+ adsorption preference over Ni2+ for this system.•The experimental data aligns best with the Freundlich model.•More than one step controls the adsorptive process.
doi_str_mv 10.1016/j.envres.2024.118220
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Among the adsorbents prepared, carbonized peanut shell (CCarb), due to its higher adsorption capacity, proved to be the most effective compared to carbonized and activated peanut shell (CATQ). The carbonization process led to structural changes, which resulted in an increase in surface area (around 6 times more in CATQ) and pore volume (around 3 times more in CATQ). Even so, the amount of H+ acid sites due to acid activation produced unfavorable effects for adsorption. Hydroxyl, carboxyl and carbonyl groups were identified on the adsorbent surface which presented favorable charges for metal adsorption. This improvement propels the carbonized variant to the forefront, demonstrating the highest adsorption capacity and reaching equilibrium in less than 90 and 60 min for cadmium and nickel ions, respectively. In both monocomponent and bicomponent systems concentrations greater than 40 ppm signify an increase in adsorption capacity for Ni2+. The experimental data best fit the Freundlich model, showing maximum adsorption capacities of 17.04 mg g−1 for cadmium and 31.28 mg g−1 for nickel. Despite the antagonistic effect observed in the bicomponent system, this study concludes by underlining the promise of activated carbon from peanut shells to harmonize technical and environmental concerns. [Display omitted] •Valorization of peanut shells as adsorbent for the removal of Cd2+ and Ni2+ ions.•Evidence of antagonistic adsorption process between Cd2+ and Ni2+ ions on the CCab.•Ccab exhibited a Cd2+ adsorption preference over Ni2+ for this system.•The experimental data aligns best with the Freundlich model.•More than one step controls the adsorptive process.</description><identifier>ISSN: 0013-9351</identifier><identifier>EISSN: 1096-0953</identifier><identifier>DOI: 10.1016/j.envres.2024.118220</identifier><identifier>PMID: 38242422</identifier><language>eng</language><publisher>Netherlands: Elsevier Inc</publisher><subject>Adsorption ; Agro-industrial waste ; Biochar ; Metal ions</subject><ispartof>Environmental research, 2024-04, Vol.247, p.118220-118220, Article 118220</ispartof><rights>2024 Elsevier Inc.</rights><rights>Copyright © 2024. 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The experimental data best fit the Freundlich model, showing maximum adsorption capacities of 17.04 mg g−1 for cadmium and 31.28 mg g−1 for nickel. Despite the antagonistic effect observed in the bicomponent system, this study concludes by underlining the promise of activated carbon from peanut shells to harmonize technical and environmental concerns. 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Among the adsorbents prepared, carbonized peanut shell (CCarb), due to its higher adsorption capacity, proved to be the most effective compared to carbonized and activated peanut shell (CATQ). The carbonization process led to structural changes, which resulted in an increase in surface area (around 6 times more in CATQ) and pore volume (around 3 times more in CATQ). Even so, the amount of H+ acid sites due to acid activation produced unfavorable effects for adsorption. Hydroxyl, carboxyl and carbonyl groups were identified on the adsorbent surface which presented favorable charges for metal adsorption. This improvement propels the carbonized variant to the forefront, demonstrating the highest adsorption capacity and reaching equilibrium in less than 90 and 60 min for cadmium and nickel ions, respectively. In both monocomponent and bicomponent systems concentrations greater than 40 ppm signify an increase in adsorption capacity for Ni2+. The experimental data best fit the Freundlich model, showing maximum adsorption capacities of 17.04 mg g−1 for cadmium and 31.28 mg g−1 for nickel. Despite the antagonistic effect observed in the bicomponent system, this study concludes by underlining the promise of activated carbon from peanut shells to harmonize technical and environmental concerns. [Display omitted] •Valorization of peanut shells as adsorbent for the removal of Cd2+ and Ni2+ ions.•Evidence of antagonistic adsorption process between Cd2+ and Ni2+ ions on the CCab.•Ccab exhibited a Cd2+ adsorption preference over Ni2+ for this system.•The experimental data aligns best with the Freundlich model.•More than one step controls the adsorptive process.</abstract><cop>Netherlands</cop><pub>Elsevier Inc</pub><pmid>38242422</pmid><doi>10.1016/j.envres.2024.118220</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-5447-1380</orcidid><orcidid>https://orcid.org/0000-0002-3791-8849</orcidid><orcidid>https://orcid.org/0000-0001-7879-0370</orcidid></addata></record>
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subjects Adsorption
Agro-industrial waste
Biochar
Metal ions
title Effective adsorption of cadmium and nickel ions in mono and bicomponent systems using eco-friendly adsorbents prepared from peanut shells
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