Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes
The feasibility of using cypress cone chips from Cupressus sempervirens as a low-cost biosorbent for the removal of two representative basic dyes, methylene blue (MB) and rhodamine B (RhB), from aqueous solutions was investigated in batch and continuous modes. Dyes biosorption was strongly dependent...
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paper:paper_09608524_v101_n24_p9500_Fernandez2023-06-08T15:57:45Z Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes Fernández, María Emilia Nunell, Gisel Vanesa Bonelli, Pablo R. Cukierman, Ana Lea Basic dyes Biosorption Cypress cone chips Textile wastewater treatment Up-flow column Aqueous solutions Basic dyes Binary solutions Biosorbents Biosorption capacity Break through curve Breakthrough time Competitive experiments Continuous mode Cypress cone chips Desorption efficiency Dynamic experiment Dynamic modes Equilibrium isotherms Langmuir models Methylene blue Pseudo second order rate model Rhodamine B Sorption kinetics Textile wastewater treatment Up-flow column Adsorption Biosorption Desorption Dyes Mathematical models Solutions Textiles Wastewater Wastewater treatment Water treatment plants Stripping (dyes) absorbent cypress cone chip methylene blue rhodamine B unclassified drug adsorption aqueous solution breakthrough curve coniferous tree desorption dye experimental study feasibility study isotherm numerical model pH pollutant removal reaction kinetics textile industry wastewater aqueous solution article biosorption Cupressus Cupressus semperviren desorption isotherm mathematical model pH priority journal upflow reactor Adsorption Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Kinetics Methylene Blue Models, Chemical Rhodamines Solutions Temperature Water Purification Cupressus Cupressus sempervirens The feasibility of using cypress cone chips from Cupressus sempervirens as a low-cost biosorbent for the removal of two representative basic dyes, methylene blue (MB) and rhodamine B (RhB), from aqueous solutions was investigated in batch and continuous modes. Dyes biosorption was strongly dependent on the solution's pH. Sorption kinetics was determined and properly described by the pseudo-second-order rate model. Experimental equilibrium isotherms fitted the Langmuir model, showing maximum biosorption capacities of 0.62. mmol/g for MB and 0.24. mmol/g for RhB. Competitive experiments from a binary solution of the dyes demonstrated the preference of the cone chips for biosorbing MB. Very low desorption efficiencies were obtained for both dyes. Dynamic experiments showed that the breakthrough time was three times higher for MB biosorption than for RhB for the same conditions. Breakthrough curves were properly represented by a mathematical model. © 2010 Elsevier Ltd. Fil:Fernandez, M.E. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Nunell, G.V. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 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. 2010 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09608524_v101_n24_p9500_Fernandez http://hdl.handle.net/20.500.12110/paper_09608524_v101_n24_p9500_Fernandez |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Basic dyes Biosorption Cypress cone chips Textile wastewater treatment Up-flow column Aqueous solutions Basic dyes Binary solutions Biosorbents Biosorption capacity Break through curve Breakthrough time Competitive experiments Continuous mode Cypress cone chips Desorption efficiency Dynamic experiment Dynamic modes Equilibrium isotherms Langmuir models Methylene blue Pseudo second order rate model Rhodamine B Sorption kinetics Textile wastewater treatment Up-flow column Adsorption Biosorption Desorption Dyes Mathematical models Solutions Textiles Wastewater Wastewater treatment Water treatment plants Stripping (dyes) absorbent cypress cone chip methylene blue rhodamine B unclassified drug adsorption aqueous solution breakthrough curve coniferous tree desorption dye experimental study feasibility study isotherm numerical model pH pollutant removal reaction kinetics textile industry wastewater aqueous solution article biosorption Cupressus Cupressus semperviren desorption isotherm mathematical model pH priority journal upflow reactor Adsorption Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Kinetics Methylene Blue Models, Chemical Rhodamines Solutions Temperature Water Purification Cupressus Cupressus sempervirens |
spellingShingle |
Basic dyes Biosorption Cypress cone chips Textile wastewater treatment Up-flow column Aqueous solutions Basic dyes Binary solutions Biosorbents Biosorption capacity Break through curve Breakthrough time Competitive experiments Continuous mode Cypress cone chips Desorption efficiency Dynamic experiment Dynamic modes Equilibrium isotherms Langmuir models Methylene blue Pseudo second order rate model Rhodamine B Sorption kinetics Textile wastewater treatment Up-flow column Adsorption Biosorption Desorption Dyes Mathematical models Solutions Textiles Wastewater Wastewater treatment Water treatment plants Stripping (dyes) absorbent cypress cone chip methylene blue rhodamine B unclassified drug adsorption aqueous solution breakthrough curve coniferous tree desorption dye experimental study feasibility study isotherm numerical model pH pollutant removal reaction kinetics textile industry wastewater aqueous solution article biosorption Cupressus Cupressus semperviren desorption isotherm mathematical model pH priority journal upflow reactor Adsorption Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Kinetics Methylene Blue Models, Chemical Rhodamines Solutions Temperature Water Purification Cupressus Cupressus sempervirens Fernández, María Emilia Nunell, Gisel Vanesa Bonelli, Pablo R. Cukierman, Ana Lea Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
topic_facet |
Basic dyes Biosorption Cypress cone chips Textile wastewater treatment Up-flow column Aqueous solutions Basic dyes Binary solutions Biosorbents Biosorption capacity Break through curve Breakthrough time Competitive experiments Continuous mode Cypress cone chips Desorption efficiency Dynamic experiment Dynamic modes Equilibrium isotherms Langmuir models Methylene blue Pseudo second order rate model Rhodamine B Sorption kinetics Textile wastewater treatment Up-flow column Adsorption Biosorption Desorption Dyes Mathematical models Solutions Textiles Wastewater Wastewater treatment Water treatment plants Stripping (dyes) absorbent cypress cone chip methylene blue rhodamine B unclassified drug adsorption aqueous solution breakthrough curve coniferous tree desorption dye experimental study feasibility study isotherm numerical model pH pollutant removal reaction kinetics textile industry wastewater aqueous solution article biosorption Cupressus Cupressus semperviren desorption isotherm mathematical model pH priority journal upflow reactor Adsorption Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Kinetics Methylene Blue Models, Chemical Rhodamines Solutions Temperature Water Purification Cupressus Cupressus sempervirens |
description |
The feasibility of using cypress cone chips from Cupressus sempervirens as a low-cost biosorbent for the removal of two representative basic dyes, methylene blue (MB) and rhodamine B (RhB), from aqueous solutions was investigated in batch and continuous modes. Dyes biosorption was strongly dependent on the solution's pH. Sorption kinetics was determined and properly described by the pseudo-second-order rate model. Experimental equilibrium isotherms fitted the Langmuir model, showing maximum biosorption capacities of 0.62. mmol/g for MB and 0.24. mmol/g for RhB. Competitive experiments from a binary solution of the dyes demonstrated the preference of the cone chips for biosorbing MB. Very low desorption efficiencies were obtained for both dyes. Dynamic experiments showed that the breakthrough time was three times higher for MB biosorption than for RhB for the same conditions. Breakthrough curves were properly represented by a mathematical model. © 2010 Elsevier Ltd. |
author |
Fernández, María Emilia Nunell, Gisel Vanesa Bonelli, Pablo R. Cukierman, Ana Lea |
author_facet |
Fernández, María Emilia Nunell, Gisel Vanesa Bonelli, Pablo R. Cukierman, Ana Lea |
author_sort |
Fernández, María Emilia |
title |
Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
title_short |
Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
title_full |
Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
title_fullStr |
Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
title_full_unstemmed |
Effectiveness of Cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
title_sort |
effectiveness of cupressus sempervirens cones as biosorbent for the removal of basic dyes from aqueous solutions in batch and dynamic modes |
publishDate |
2010 |
url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09608524_v101_n24_p9500_Fernandez http://hdl.handle.net/20.500.12110/paper_09608524_v101_n24_p9500_Fernandez |
work_keys_str_mv |
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_version_ |
1768543954959073280 |