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Obtaining of eucalyptus microfibrils for adsorption of aromatic compounds in aqueous solution Iñaki Urruzola, Eduardo Robles, Luis Serrano, M. Ángeles.

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Presentation on theme: "Obtaining of eucalyptus microfibrils for adsorption of aromatic compounds in aqueous solution Iñaki Urruzola, Eduardo Robles, Luis Serrano, M. Ángeles."— Presentation transcript:

1 Obtaining of eucalyptus microfibrils for adsorption of aromatic compounds in aqueous solution Iñaki Urruzola, Eduardo Robles, Luis Serrano, M. Ángeles Andrés, Jalel Labidi Department of Chemical and Environmental Engineering. University of the Basque Country, Pza. Europa 1, 20018 San Sebastián, Spain jalel.labidi@ehu.es Iñaki Urruzola, Eduardo Robles, Luis Serrano, M. Ángeles Andrés, Jalel Labidi Department of Chemical and Environmental Engineering. University of the Basque Country, Pza. Europa 1, 20018 San Sebastián, Spain jalel.labidi@ehu.es

2 Chemical and mechanical treatments have been used to obtain cellulose microfibils using bleached eucalyptus pulp as raw material Modification of microfibrils to increase the adsorption capacity Adsorption studies, using different organic solutes in an aqueous solution. Chemical and mechanical treatments have been used to obtain cellulose microfibils using bleached eucalyptus pulp as raw material Modification of microfibrils to increase the adsorption capacity Adsorption studies, using different organic solutes in an aqueous solution. Objectives Methodology Elimination of water by azeotropic distillation. Next, Addition of palmitic acid, a dehydration agent N-N’ Dicyclohexylcarbodiimide (DCC), and the catalyst (DMAP). Finally, putting all in a toluene/DMF (60/40) mixing at 80ºC for 3h with reflux Functionalization of microfibrils ACETILATION 2ml HNO 3 + 12ml CH 3 COOH+ 0,6gFm T = 130 ºC t = 30min ACETILATION 2ml HNO 3 + 12ml CH 3 COOH+ 0,6gFm T = 130 ºC t = 30min HYDROLYSIS 8.75ml H 2 SO 4 (32%) + 1g FMA T = 45 ºC t = 60min HYDROLYSIS 8.75ml H 2 SO 4 (32%) + 1g FMA T = 45 ºC t = 60min HOMOGENIZATION 40 passes 1000 bar HOMOGENIZATION 40 passes 1000 bar EUKALYPTUS BLEACHED PULP Chemical Microfibrils Mechanical Microfibrils

3 a) Eucalyptus pulp, b) Modified Eucalyptus, c) Mechanical microfibrils, d) Modified Mechanical microfibrils, e)Chemical microfibrils, f) Modified Chemical microfibrils Eucalyptus Pulp Modified Eucalyptus Chemical microfibrils Modified Chemical microfibrils Mechanical microfibrils Modified Mechanical microfibrils θ 38.17 ± 3.81 94.27 ±6.2746.58. ± 3.887.48 ± 2.8142.63± 3.7498.76 ± 6.77 left) Chemical microfibrils, right) Modified chemical microfibrils Results Infrared spectroscopy Contact angle measurements Chemical and mechanical treatments have been reduced the fibers size significantly FTIR spectrum of microfibrils, after treatment with palmitic acid, shows a new peak at 1745cm -1 corresponding to the carbonyl vibration of the ester group formed in the reaction. Contact angle measurements reveals that modified fibres have a higher hydrophobic characters. The nanofibres obtained with mechanical treatments did not show significant differences Chemical and mechanical treatments have been reduced the fibers size significantly FTIR spectrum of microfibrils, after treatment with palmitic acid, shows a new peak at 1745cm -1 corresponding to the carbonyl vibration of the ester group formed in the reaction. Contact angle measurements reveals that modified fibres have a higher hydrophobic characters. The nanofibres obtained with mechanical treatments did not show significant differences AFM image of mechanically treated fibers with the homogenization method

4 Batch adsorption studies Langmuir isotherms for toluene with modified fibers Langmuir isotherms for various organic solutes using modified mechanical microfibrils The adsorption capacity of the modified fibers was measured with toluene Mechanical microfibrils presented the best results, adsorbing more than 600 µmol/g. These mechanical microfibrils were used to measure the adsorption capacity with various organic solutes and Langmuir isotherms were established. The adsorption capacity of the modified fibers was measured with toluene Mechanical microfibrils presented the best results, adsorbing more than 600 µmol/g. These mechanical microfibrils were used to measure the adsorption capacity with various organic solutes and Langmuir isotherms were established.

5 Thank you for your attention Acknowledgements Iñaki Urruzola, Luis Serrano, Rodrigo Llano-Ponte, Ma. Ángeles de Andrés, Jalel Labidi, Obtaining of eucalyptus microfibrils for adsorption of aromatic compounds in aqueous solution, Chem. Eng. J. 229(2013) 42-49

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