Preparation of hybrids of wood sawdust with 3-aminopropyl-triethoxysilane. Application as an adsorbent to remove Reactive Blue 4 dye from wastewater effluents

•Increase in the sorption capacity of up to 21.6 times of AW@APTES-0.5 to AW.•AW@APTES-0.5 was used for the treatment of textile wastewaters with the removal of 98.66%.•AW presented an overall removal of only 10.24% of the textile wastewater.•Studies indicate that the mechanism of adsorption of RB-4...

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Veröffentlicht in:	Journal of the Taiwan Institute of Chemical Engineers 2021-08, Vol.125, p.141-152
Hauptverfasser:	Teixeira, Roberta A., Lima, Eder C., Benetti, Antônio D., Thue, Pascal S., Cunha, Mariene R., Cimirro, Nilton F.G.M., Sher, Farooq, Dehghani, Mohammad Hadi, dos Reis, Glaydson S., Dotto, Guilherme L.
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Sprache:	eng
Schlagworte:	Adsorption mechanism Biomass-based hybrid materials Nonlinear fitting Textile effluents Thermodynamics adsorption Vattenbehandling Water Treatment
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creator	Teixeira, Roberta A. Lima, Eder C. Benetti, Antônio D. Thue, Pascal S. Cunha, Mariene R. Cimirro, Nilton F.G.M. Sher, Farooq Dehghani, Mohammad Hadi dos Reis, Glaydson S. Dotto, Guilherme L.
description	•Increase in the sorption capacity of up to 21.6 times of AW@APTES-0.5 to AW.•AW@APTES-0.5 was used for the treatment of textile wastewaters with the removal of 98.66%.•AW presented an overall removal of only 10.24% of the textile wastewater.•Studies indicate that the mechanism of adsorption of RB-4 onto AW@APTES-0.5 was mainly electrostatic attraction at pH 2. Biomass-based materials present low sorption capacity. In order to overcome this disadvantage, chemical modification of these materials is required. Hybrids of biomass-based materials were obtained by reacting (25%-200% weight) 3-aminopropyl-triethoxysilane (APTES) with the biomass Ayous wood sawdust (AW), obtaining the hybrid materials AW@APTES-0.25, AW@APTES-0.50, AW@APTES-1.0, AW@APTES-1.5, and AW@APTES-2.0, that were characterized by hydrophobic/hydrophilic balance, CHN elemental analysis, surface area, TGA, FTIR, and pHpzc. For screening purposes, the five materials were tested as adsorbents to remove reactive blue 4 (RB-4) from water. The results showed that AW@APTES-0.5 attained the maximum removal of RB-4. The kinetics and equilibrium data were suitably fitted by the nonlinear General-order kinetic (GO) and Liu equilibrium adsorption models. The maximum amount adsorbed of RB-4 dye was 415.1 mg g − 1 using AW@APTES-0.5 (50 °C). An increase in the Qmax value of AW@APTES-0.5 concerning unmodified AW attained up to 21.6 times. The ΔG° and ΔH° indicated that the adsorption processes of RB-4 onto adsorbents are endothermic and spontaneous, and the magnitude of enthalpy of adsorption (25.10 kJ mol−1) is compatible with the electrostatic attraction mechanism. The adsorbents’ applicability for treating simulated dye effluents showed an excellent efficiency attaining 98.66% removal of the effluent. [Display omitted]
doi_str_mv	10.1016/j.jtice.2021.06.007
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Application as an adsorbent to remove Reactive Blue 4 dye from wastewater effluents</title><source>Elsevier ScienceDirect Journals</source><creator>Teixeira, Roberta A. ; Lima, Eder C. ; Benetti, Antônio D. ; Thue, Pascal S. ; Cunha, Mariene R. ; Cimirro, Nilton F.G.M. ; Sher, Farooq ; Dehghani, Mohammad Hadi ; dos Reis, Glaydson S. ; Dotto, Guilherme L.</creator><creatorcontrib>Teixeira, Roberta A. ; Lima, Eder C. ; Benetti, Antônio D. ; Thue, Pascal S. ; Cunha, Mariene R. ; Cimirro, Nilton F.G.M. ; Sher, Farooq ; Dehghani, Mohammad Hadi ; dos Reis, Glaydson S. ; Dotto, Guilherme L. ; Sveriges lantbruksuniversitet</creatorcontrib><description>•Increase in the sorption capacity of up to 21.6 times of AW@APTES-0.5 to AW.•AW@APTES-0.5 was used for the treatment of textile wastewaters with the removal of 98.66%.•AW presented an overall removal of only 10.24% of the textile wastewater.•Studies indicate that the mechanism of adsorption of RB-4 onto AW@APTES-0.5 was mainly electrostatic attraction at pH 2. Biomass-based materials present low sorption capacity. In order to overcome this disadvantage, chemical modification of these materials is required. Hybrids of biomass-based materials were obtained by reacting (25%-200% weight) 3-aminopropyl-triethoxysilane (APTES) with the biomass Ayous wood sawdust (AW), obtaining the hybrid materials AW@APTES-0.25, AW@APTES-0.50, AW@APTES-1.0, AW@APTES-1.5, and AW@APTES-2.0, that were characterized by hydrophobic/hydrophilic balance, CHN elemental analysis, surface area, TGA, FTIR, and pHpzc. For screening purposes, the five materials were tested as adsorbents to remove reactive blue 4 (RB-4) from water. The results showed that AW@APTES-0.5 attained the maximum removal of RB-4. The kinetics and equilibrium data were suitably fitted by the nonlinear General-order kinetic (GO) and Liu equilibrium adsorption models. The maximum amount adsorbed of RB-4 dye was 415.1 mg g − 1 using AW@APTES-0.5 (50 °C). An increase in the Qmax value of AW@APTES-0.5 concerning unmodified AW attained up to 21.6 times. The ΔG° and ΔH° indicated that the adsorption processes of RB-4 onto adsorbents are endothermic and spontaneous, and the magnitude of enthalpy of adsorption (25.10 kJ mol−1) is compatible with the electrostatic attraction mechanism. The adsorbents’ applicability for treating simulated dye effluents showed an excellent efficiency attaining 98.66% removal of the effluent. 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Application as an adsorbent to remove Reactive Blue 4 dye from wastewater effluents</title><title>Journal of the Taiwan Institute of Chemical Engineers</title><description>•Increase in the sorption capacity of up to 21.6 times of AW@APTES-0.5 to AW.•AW@APTES-0.5 was used for the treatment of textile wastewaters with the removal of 98.66%.•AW presented an overall removal of only 10.24% of the textile wastewater.•Studies indicate that the mechanism of adsorption of RB-4 onto AW@APTES-0.5 was mainly electrostatic attraction at pH 2. Biomass-based materials present low sorption capacity. In order to overcome this disadvantage, chemical modification of these materials is required. Hybrids of biomass-based materials were obtained by reacting (25%-200% weight) 3-aminopropyl-triethoxysilane (APTES) with the biomass Ayous wood sawdust (AW), obtaining the hybrid materials AW@APTES-0.25, AW@APTES-0.50, AW@APTES-1.0, AW@APTES-1.5, and AW@APTES-2.0, that were characterized by hydrophobic/hydrophilic balance, CHN elemental analysis, surface area, TGA, FTIR, and pHpzc. For screening purposes, the five materials were tested as adsorbents to remove reactive blue 4 (RB-4) from water. The results showed that AW@APTES-0.5 attained the maximum removal of RB-4. The kinetics and equilibrium data were suitably fitted by the nonlinear General-order kinetic (GO) and Liu equilibrium adsorption models. The maximum amount adsorbed of RB-4 dye was 415.1 mg g − 1 using AW@APTES-0.5 (50 °C). An increase in the Qmax value of AW@APTES-0.5 concerning unmodified AW attained up to 21.6 times. The ΔG° and ΔH° indicated that the adsorption processes of RB-4 onto adsorbents are endothermic and spontaneous, and the magnitude of enthalpy of adsorption (25.10 kJ mol−1) is compatible with the electrostatic attraction mechanism. The adsorbents’ applicability for treating simulated dye effluents showed an excellent efficiency attaining 98.66% removal of the effluent. [Display omitted]</description><subject>Adsorption mechanism</subject><subject>Biomass-based hybrid materials</subject><subject>Nonlinear fitting</subject><subject>Textile effluents</subject><subject>Thermodynamics adsorption</subject><subject>Vattenbehandling</subject><subject>Water Treatment</subject><issn>1876-1070</issn><issn>1876-1089</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNp9kc9q3DAQxk1poCHJE_SiF7CrP5bkPfSQhrYJBFJKcxZjacRq8VpG0sb1y_RZa2dLjp3DzAfD74OZr6o-MtowytSnQ3MowWLDKWcNVQ2l-l11yTqtaka73fs3remH6ibnA91KU87lZfXnR8IJEpQQRxI92S99Ci5vco7RkQyzO-VC5lD2RNRwDGOcUpyWoS4pYNnH30sOA4zYkNtpGoI9W0EmsHaXY-pxLKREkvAYX5D8RLAlrOLLcELSErcg8SkeyQy54AwFE0Hv1-VY8nV14WHIePNvXlXP377-uruvH5--P9zdPtZWdLrUbUu15cjBgxdMSu6kFCA6JV3nFGM9l5Rp3HHbauW13DHNvbJtv1PWO0HFVdWcffOM06k3UwpHSIuJEEweTj2kbZiMhjHRcrkC4gzYFHNO6N8QRs0WizmY11jMFouhyqwvX6nPZwrXW14Crq424GjRhYS2GBfDf_m_hfKbCQ</recordid><startdate>20210801</startdate><enddate>20210801</enddate><creator>Teixeira, Roberta A.</creator><creator>Lima, Eder C.</creator><creator>Benetti, Antônio D.</creator><creator>Thue, Pascal S.</creator><creator>Cunha, Mariene R.</creator><creator>Cimirro, Nilton F.G.M.</creator><creator>Sher, Farooq</creator><creator>Dehghani, Mohammad Hadi</creator><creator>dos Reis, Glaydson S.</creator><creator>Dotto, Guilherme L.</creator><general>Elsevier B.V</general><scope>AAYXX</scope><scope>CITATION</scope><scope>ADTPV</scope><scope>AOWAS</scope></search><sort><creationdate>20210801</creationdate><title>Preparation of hybrids of wood sawdust with 3-aminopropyl-triethoxysilane. 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Application as an adsorbent to remove Reactive Blue 4 dye from wastewater effluents</atitle><jtitle>Journal of the Taiwan Institute of Chemical Engineers</jtitle><date>2021-08-01</date><risdate>2021</risdate><volume>125</volume><spage>141</spage><epage>152</epage><pages>141-152</pages><issn>1876-1070</issn><eissn>1876-1089</eissn><abstract>•Increase in the sorption capacity of up to 21.6 times of AW@APTES-0.5 to AW.•AW@APTES-0.5 was used for the treatment of textile wastewaters with the removal of 98.66%.•AW presented an overall removal of only 10.24% of the textile wastewater.•Studies indicate that the mechanism of adsorption of RB-4 onto AW@APTES-0.5 was mainly electrostatic attraction at pH 2. Biomass-based materials present low sorption capacity. In order to overcome this disadvantage, chemical modification of these materials is required. Hybrids of biomass-based materials were obtained by reacting (25%-200% weight) 3-aminopropyl-triethoxysilane (APTES) with the biomass Ayous wood sawdust (AW), obtaining the hybrid materials AW@APTES-0.25, AW@APTES-0.50, AW@APTES-1.0, AW@APTES-1.5, and AW@APTES-2.0, that were characterized by hydrophobic/hydrophilic balance, CHN elemental analysis, surface area, TGA, FTIR, and pHpzc. For screening purposes, the five materials were tested as adsorbents to remove reactive blue 4 (RB-4) from water. The results showed that AW@APTES-0.5 attained the maximum removal of RB-4. The kinetics and equilibrium data were suitably fitted by the nonlinear General-order kinetic (GO) and Liu equilibrium adsorption models. The maximum amount adsorbed of RB-4 dye was 415.1 mg g − 1 using AW@APTES-0.5 (50 °C). An increase in the Qmax value of AW@APTES-0.5 concerning unmodified AW attained up to 21.6 times. The ΔG° and ΔH° indicated that the adsorption processes of RB-4 onto adsorbents are endothermic and spontaneous, and the magnitude of enthalpy of adsorption (25.10 kJ mol−1) is compatible with the electrostatic attraction mechanism. The adsorbents’ applicability for treating simulated dye effluents showed an excellent efficiency attaining 98.66% removal of the effluent. [Display omitted]</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jtice.2021.06.007</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adsorption mechanism Biomass-based hybrid materials Nonlinear fitting Textile effluents Thermodynamics adsorption Vattenbehandling Water Treatment
title	Preparation of hybrids of wood sawdust with 3-aminopropyl-triethoxysilane. Application as an adsorbent to remove Reactive Blue 4 dye from wastewater effluents
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