Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips
A simple alkaline pre-treatment of Cupressus sempervirens cone chips was performed to improve their biosorption capacity towards methylene blue and rhodamine B from aqueous solutions, in batch and continuous modes. Biosorption kinetics were determined from single and binary dyes solutions, and prope...
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todo:paper_09608524_v106_n_p55_Fernandez2023-10-03T15:53:54Z Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips Fernandez, M.E. Nunell, G.V. Bonelli, P.R. Cukierman, A.L. Basic dyes Competitive dynamic biosorption Industrial effluents treatment Modified cone chips Alkaline modification Basic dyes Binary solutions Biosorption capacity Break through curve Breakthrough time Competitive dynamics Continuous mode Equilibrium isotherms Industrial effluent Methylene Blue Modified cone chips Pre-Treatment Pseudo second order rate model Rhodamine B Dyes Effluents Sewage Biosorption alkaline earth metal dye methylene blue rhodamine B adsorption alkaline environment aqueous solution biotechnology breakthrough curve coniferous tree dye effluent industrial waste isotherm numerical model pollutant removal reaction kinetics waste treatment aqueous solution article batch reactor biosorption chemical modification competitive dynamic biosorption concentration (parameters) continuous flow reactor controlled study Cupressus Cupressus sempervirens cone chip effluent equilibrium constant isotherm kinetics Langmuir Blodgett film Langmuir Freundlich model molecular dynamics nonhuman physical chemistry priority journal waste water management Adsorption Batch Cell Culture Techniques Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Hydroxides Kinetics Methylene Blue Models, Chemical Potassium Compounds Rhodamines Solutions Temperature Waste Products Water Pollutants, Chemical Cupressus Cupressus sempervirens A simple alkaline pre-treatment of Cupressus sempervirens cone chips was performed to improve their biosorption capacity towards methylene blue and rhodamine B from aqueous solutions, in batch and continuous modes. Biosorption kinetics were determined from single and binary dyes solutions, and properly described by the pseudo-second-order rate model. Experimental single-dye equilibrium isotherms fitted the Langmuir-Freundlich model, with maximum biosorption capacities of 0.68. mmol/g for methylene blue and 0.50. mmol/g for rhodamine B. Single-dye dynamic biosorption showed that breakthrough time for methylene blue biosorption was almost four times longer than for rhodamine B and that the alkaline modification of the chips greatly improved the biosorption performance. Competitive dynamic biosorption demonstrated the preference of the modified cone chips for biosorbing methylene blue, confirmed by the exit concentration overshoots obtained in the breakthrough curves of rhodamine B. © 2011 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. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_09608524_v106_n_p55_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 Competitive dynamic biosorption Industrial effluents treatment Modified cone chips Alkaline modification Basic dyes Binary solutions Biosorption capacity Break through curve Breakthrough time Competitive dynamics Continuous mode Equilibrium isotherms Industrial effluent Methylene Blue Modified cone chips Pre-Treatment Pseudo second order rate model Rhodamine B Dyes Effluents Sewage Biosorption alkaline earth metal dye methylene blue rhodamine B adsorption alkaline environment aqueous solution biotechnology breakthrough curve coniferous tree dye effluent industrial waste isotherm numerical model pollutant removal reaction kinetics waste treatment aqueous solution article batch reactor biosorption chemical modification competitive dynamic biosorption concentration (parameters) continuous flow reactor controlled study Cupressus Cupressus sempervirens cone chip effluent equilibrium constant isotherm kinetics Langmuir Blodgett film Langmuir Freundlich model molecular dynamics nonhuman physical chemistry priority journal waste water management Adsorption Batch Cell Culture Techniques Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Hydroxides Kinetics Methylene Blue Models, Chemical Potassium Compounds Rhodamines Solutions Temperature Waste Products Water Pollutants, Chemical Cupressus Cupressus sempervirens |
spellingShingle |
Basic dyes Competitive dynamic biosorption Industrial effluents treatment Modified cone chips Alkaline modification Basic dyes Binary solutions Biosorption capacity Break through curve Breakthrough time Competitive dynamics Continuous mode Equilibrium isotherms Industrial effluent Methylene Blue Modified cone chips Pre-Treatment Pseudo second order rate model Rhodamine B Dyes Effluents Sewage Biosorption alkaline earth metal dye methylene blue rhodamine B adsorption alkaline environment aqueous solution biotechnology breakthrough curve coniferous tree dye effluent industrial waste isotherm numerical model pollutant removal reaction kinetics waste treatment aqueous solution article batch reactor biosorption chemical modification competitive dynamic biosorption concentration (parameters) continuous flow reactor controlled study Cupressus Cupressus sempervirens cone chip effluent equilibrium constant isotherm kinetics Langmuir Blodgett film Langmuir Freundlich model molecular dynamics nonhuman physical chemistry priority journal waste water management Adsorption Batch Cell Culture Techniques Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Hydroxides Kinetics Methylene Blue Models, Chemical Potassium Compounds Rhodamines Solutions Temperature Waste Products Water Pollutants, Chemical Cupressus Cupressus sempervirens Fernandez, M.E. Nunell, G.V. Bonelli, P.R. Cukierman, A.L. Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
topic_facet |
Basic dyes Competitive dynamic biosorption Industrial effluents treatment Modified cone chips Alkaline modification Basic dyes Binary solutions Biosorption capacity Break through curve Breakthrough time Competitive dynamics Continuous mode Equilibrium isotherms Industrial effluent Methylene Blue Modified cone chips Pre-Treatment Pseudo second order rate model Rhodamine B Dyes Effluents Sewage Biosorption alkaline earth metal dye methylene blue rhodamine B adsorption alkaline environment aqueous solution biotechnology breakthrough curve coniferous tree dye effluent industrial waste isotherm numerical model pollutant removal reaction kinetics waste treatment aqueous solution article batch reactor biosorption chemical modification competitive dynamic biosorption concentration (parameters) continuous flow reactor controlled study Cupressus Cupressus sempervirens cone chip effluent equilibrium constant isotherm kinetics Langmuir Blodgett film Langmuir Freundlich model molecular dynamics nonhuman physical chemistry priority journal waste water management Adsorption Batch Cell Culture Techniques Biodegradation, Environmental Coloring Agents Cupressus Hydrogen-Ion Concentration Hydroxides Kinetics Methylene Blue Models, Chemical Potassium Compounds Rhodamines Solutions Temperature Waste Products Water Pollutants, Chemical Cupressus Cupressus sempervirens |
description |
A simple alkaline pre-treatment of Cupressus sempervirens cone chips was performed to improve their biosorption capacity towards methylene blue and rhodamine B from aqueous solutions, in batch and continuous modes. Biosorption kinetics were determined from single and binary dyes solutions, and properly described by the pseudo-second-order rate model. Experimental single-dye equilibrium isotherms fitted the Langmuir-Freundlich model, with maximum biosorption capacities of 0.68. mmol/g for methylene blue and 0.50. mmol/g for rhodamine B. Single-dye dynamic biosorption showed that breakthrough time for methylene blue biosorption was almost four times longer than for rhodamine B and that the alkaline modification of the chips greatly improved the biosorption performance. Competitive dynamic biosorption demonstrated the preference of the modified cone chips for biosorbing methylene blue, confirmed by the exit concentration overshoots obtained in the breakthrough curves of rhodamine B. © 2011 Elsevier Ltd. |
format |
JOUR |
author |
Fernandez, M.E. Nunell, G.V. Bonelli, P.R. Cukierman, A.L. |
author_facet |
Fernandez, M.E. Nunell, G.V. Bonelli, P.R. Cukierman, A.L. |
author_sort |
Fernandez, M.E. |
title |
Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
title_short |
Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
title_full |
Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
title_fullStr |
Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
title_full_unstemmed |
Batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
title_sort |
batch and dynamic biosorption of basic dyes from binary solutions by alkaline-treated cypress cone chips |
url |
http://hdl.handle.net/20.500.12110/paper_09608524_v106_n_p55_Fernandez |
work_keys_str_mv |
AT fernandezme batchanddynamicbiosorptionofbasicdyesfrombinarysolutionsbyalkalinetreatedcypressconechips AT nunellgv batchanddynamicbiosorptionofbasicdyesfrombinarysolutionsbyalkalinetreatedcypressconechips AT bonellipr batchanddynamicbiosorptionofbasicdyesfrombinarysolutionsbyalkalinetreatedcypressconechips AT cukiermanal batchanddynamicbiosorptionofbasicdyesfrombinarysolutionsbyalkalinetreatedcypressconechips |
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1782026560096698368 |