Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation
An industrial raw Kraft lignin was investigated to ascertain its potential use for removal of trace Ni(II) ion from wastewater by using dilute solutions (0.34-1.7 mM) as models. The effect of demineralisation on its metal sorption ability was examined by employing acid pre-treated samples. Under fix...
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todo:paper_09608524_v100_n3_p1130_Betancur2023-10-03T15:53:52Z Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation Betancur, M. Bonelli, P.R. Velásquez, J.A. Cukierman, A.L. Biosorption Demineralised lignin Kraft lignin Metal pollution Wastewater Acids Atmospheric temperature Biosorption Chemical oxygen demand Chemicals removal (water treatment) Kraft process Lignin Metal recovery Nickel Nickel alloys Phenols Sorption Wastewater Water pollution Zeta potential AS models Biosorbent Demineralisation Demineralised lignin Dilute solutions Equilibrium conditions Equilibrium isotherms Kraft lignin Kraft lignins Metal pollution Metal sorptions Parameter models Phenolic hydroxyl groups Polluted waters Pulping processes Rate models Second orders Sorption capacities Sorption kinetics Industrial water treatment lignin nickel phenol sodium water lignin nickel pollutant removal pulp and paper industry reaction kinetics sodium sorption wastewater water pollution article comparative study heavy metal removal isotherm kinetics model priority journal pulping sample waste water zeta potential Absorption Computer Simulation Feasibility Studies Lignin Minerals Models, Chemical Nickel Ultrafiltration Water Pollutants, Chemical Water Purification Acids Alkali Lignins Alloy Industrial Wastes Kraft Pulping Lignins Nickel Phenols Sorption Temperature Water Pollution Water Treatment Zeta Potential An industrial raw Kraft lignin was investigated to ascertain its potential use for removal of trace Ni(II) ion from wastewater by using dilute solutions (0.34-1.7 mM) as models. The effect of demineralisation on its metal sorption ability was examined by employing acid pre-treated samples. Under fixed pre-established equilibrium conditions, the raw lignin exhibited a lower effectiveness than the demineralised one, with the latter attaining an almost complete removal of Ni(II) ions. For both lignins, sorption kinetics was properly described by a pseudo-second order rate model. Equilibrium isotherms were also determined and adequately represented by conventional two-parameter models. The higher nickel sorption capacity for the demineralised lignin compared to the raw sample was consistent with enhancements in the negative magnitude of zeta potential, sodium sorption capacity, and content of phenolic hydroxyl groups occasioned by the acid pre-treatment. Accordingly, demineralisation appears as a readily convenient strategy to improve the behaviour of industrial Kraft lignin for potential use as a biosorbent of trace nickel from polluted water. © 2008 Elsevier Ltd. All rights reserved. Fil:Bonelli, P.R. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Cukierman, A.L. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09608524_v100_n3_p1130_Betancur |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Biosorption Demineralised lignin Kraft lignin Metal pollution Wastewater Acids Atmospheric temperature Biosorption Chemical oxygen demand Chemicals removal (water treatment) Kraft process Lignin Metal recovery Nickel Nickel alloys Phenols Sorption Wastewater Water pollution Zeta potential AS models Biosorbent Demineralisation Demineralised lignin Dilute solutions Equilibrium conditions Equilibrium isotherms Kraft lignin Kraft lignins Metal pollution Metal sorptions Parameter models Phenolic hydroxyl groups Polluted waters Pulping processes Rate models Second orders Sorption capacities Sorption kinetics Industrial water treatment lignin nickel phenol sodium water lignin nickel pollutant removal pulp and paper industry reaction kinetics sodium sorption wastewater water pollution article comparative study heavy metal removal isotherm kinetics model priority journal pulping sample waste water zeta potential Absorption Computer Simulation Feasibility Studies Lignin Minerals Models, Chemical Nickel Ultrafiltration Water Pollutants, Chemical Water Purification Acids Alkali Lignins Alloy Industrial Wastes Kraft Pulping Lignins Nickel Phenols Sorption Temperature Water Pollution Water Treatment Zeta Potential |
spellingShingle |
Biosorption Demineralised lignin Kraft lignin Metal pollution Wastewater Acids Atmospheric temperature Biosorption Chemical oxygen demand Chemicals removal (water treatment) Kraft process Lignin Metal recovery Nickel Nickel alloys Phenols Sorption Wastewater Water pollution Zeta potential AS models Biosorbent Demineralisation Demineralised lignin Dilute solutions Equilibrium conditions Equilibrium isotherms Kraft lignin Kraft lignins Metal pollution Metal sorptions Parameter models Phenolic hydroxyl groups Polluted waters Pulping processes Rate models Second orders Sorption capacities Sorption kinetics Industrial water treatment lignin nickel phenol sodium water lignin nickel pollutant removal pulp and paper industry reaction kinetics sodium sorption wastewater water pollution article comparative study heavy metal removal isotherm kinetics model priority journal pulping sample waste water zeta potential Absorption Computer Simulation Feasibility Studies Lignin Minerals Models, Chemical Nickel Ultrafiltration Water Pollutants, Chemical Water Purification Acids Alkali Lignins Alloy Industrial Wastes Kraft Pulping Lignins Nickel Phenols Sorption Temperature Water Pollution Water Treatment Zeta Potential Betancur, M. Bonelli, P.R. Velásquez, J.A. Cukierman, A.L. Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
topic_facet |
Biosorption Demineralised lignin Kraft lignin Metal pollution Wastewater Acids Atmospheric temperature Biosorption Chemical oxygen demand Chemicals removal (water treatment) Kraft process Lignin Metal recovery Nickel Nickel alloys Phenols Sorption Wastewater Water pollution Zeta potential AS models Biosorbent Demineralisation Demineralised lignin Dilute solutions Equilibrium conditions Equilibrium isotherms Kraft lignin Kraft lignins Metal pollution Metal sorptions Parameter models Phenolic hydroxyl groups Polluted waters Pulping processes Rate models Second orders Sorption capacities Sorption kinetics Industrial water treatment lignin nickel phenol sodium water lignin nickel pollutant removal pulp and paper industry reaction kinetics sodium sorption wastewater water pollution article comparative study heavy metal removal isotherm kinetics model priority journal pulping sample waste water zeta potential Absorption Computer Simulation Feasibility Studies Lignin Minerals Models, Chemical Nickel Ultrafiltration Water Pollutants, Chemical Water Purification Acids Alkali Lignins Alloy Industrial Wastes Kraft Pulping Lignins Nickel Phenols Sorption Temperature Water Pollution Water Treatment Zeta Potential |
description |
An industrial raw Kraft lignin was investigated to ascertain its potential use for removal of trace Ni(II) ion from wastewater by using dilute solutions (0.34-1.7 mM) as models. The effect of demineralisation on its metal sorption ability was examined by employing acid pre-treated samples. Under fixed pre-established equilibrium conditions, the raw lignin exhibited a lower effectiveness than the demineralised one, with the latter attaining an almost complete removal of Ni(II) ions. For both lignins, sorption kinetics was properly described by a pseudo-second order rate model. Equilibrium isotherms were also determined and adequately represented by conventional two-parameter models. The higher nickel sorption capacity for the demineralised lignin compared to the raw sample was consistent with enhancements in the negative magnitude of zeta potential, sodium sorption capacity, and content of phenolic hydroxyl groups occasioned by the acid pre-treatment. Accordingly, demineralisation appears as a readily convenient strategy to improve the behaviour of industrial Kraft lignin for potential use as a biosorbent of trace nickel from polluted water. © 2008 Elsevier Ltd. All rights reserved. |
format |
JOUR |
author |
Betancur, M. Bonelli, P.R. Velásquez, J.A. Cukierman, A.L. |
author_facet |
Betancur, M. Bonelli, P.R. Velásquez, J.A. Cukierman, A.L. |
author_sort |
Betancur, M. |
title |
Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
title_short |
Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
title_full |
Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
title_fullStr |
Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
title_full_unstemmed |
Potentiality of lignin from the Kraft pulping process for removal of trace nickel from wastewater: Effect of demineralisation |
title_sort |
potentiality of lignin from the kraft pulping process for removal of trace nickel from wastewater: effect of demineralisation |
url |
http://hdl.handle.net/20.500.12110/paper_09608524_v100_n3_p1130_Betancur |
work_keys_str_mv |
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_version_ |
1782029947827650560 |