Thermodynamic analysis of adsorption models of phenol in liquid phase on different activated carbons

This paper studies the thermodynamic aspects of the processes of adsorption of phenol from dilute aqueous solutions on different commercial carbons, evaluating how to optimize the removal of this persistent contaminant. Two powdered activated carbons from two different companies were used: Tetrahedron Carbon (Andes Chemistry Lab., Mendoza, Argentina), and Norit (Norit Americas Inc., USA). Both specific surface areas were measured by means of the BET method. The adsorbate was high purity solid phenol (Fluka ® ≥ 99.5%). Experimental isotherms were determined at 293 K, 303 K and 313 K. The Freundlich and Sips theoretical models were used to fit the experimental data. Freundlich isotherm slightly diverges with the experimental results for higher equilibrium concentrations. Thermodynamic parameters were calculated and correlated with the adsorption behaviours. The values of the thermodynamic parameters obtained indicate an exothermic and spontaneous process for both carbons, and mainly for Norit. This is due to the fact that there might be chemically activated regions on the surface of the Norit carbon, which give rise to combined mechanisms of physisorption and chemisorption.Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicada

Thermodynamic analysis of adsorption models of phenol in liquid phase on different activated carbons

This paper studies the thermodynamic aspects of the processes of adsorption of phenol from dilute aqueous solutions on different commercial carbons, evaluating how to optimize the removal of this persistent contaminant. Two powdered activated carbons from two different companies were used: Tetrahedron Carbon (Andes Chemistry Lab., Mendoza, Argentina), and Norit (Norit Americas Inc., USA). Both specific surface areas were measured by means of the BET method. The adsorbate was high purity solid phenol (Fluka ® ≥ 99.5%). Experimental isotherms were determined at 293 K, 303 K and 313 K. The Freundlich and Sips theoretical models were used to fit the experimental data. Freundlich isotherm slightly diverges with the experimental results for higher equilibrium concentrations. Thermodynamic parameters were calculated and correlated with the adsorption behaviours. The values of the thermodynamic parameters obtained indicate an exothermic and spontaneous process for both carbons, and mainly for Norit. This is due to the fact that there might be chemically activated regions on the surface of the Norit carbon, which give rise to combined mechanisms of physisorption and chemisorption.Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicada

Preparación, caracterización y estudios texturales de carbones activados obtenidos a partir de yerba mate y su utilización para la remoción de fenol y Cr (III) en solución acuosa

Se sintetizaron carbones activados partiendo de yerba mate con distintos tratamientos químicos y físicos y se los estudió para la remoción de fenol y Cr(III) en soluciones acuosas. Se realizó la caracterización textural de los materiales carbonosos y se calculó área específica BET; volumen, tamaño y distribución tamaños de poros y posibles heterogeneidades de la superficie, empleandoteoría de funcionales de densidad (NL/QSDFT); tipoy cantidad de grupos oxigenados superficiales por el método de Boehm; punto de carga cero; microscopía electrónica de barrido y espectroscopia infrarroja por transformada de Fourier en celda de reflectancia difusa. Los datos experimentales de la adsorción de fenoly Cr(III) en solución acuosa fueron interpretados empleando modelo de Sips. El mayor área superficial corresponde a la muestra CYMFQ con 454 m2.g-1. CYMF resultó ser la más adecuada para la remoción de fenol, con capacidad máxima de 0.0040 mol.g-1. CYMFQ resultó ser la más adecuada para la remoción de cromo con capacidad máxima de 9.66 mg.g-1

Thermodynamic analysis of adsorption models of phenol in liquid phase on different activated carbons

This paper studies the thermodynamic aspects of the processes of adsorption of phenol from dilute aqueous solutions on different commercial carbons, evaluating how to optimize the removal of this persistent contaminant. Two powdered activated carbons from two different companies were used: Tetrahedron Carbon (Andes Chemistry Lab., Mendoza, Argentina), and Norit (Norit Americas Inc., USA). Both specific surface areas were measured by means of the BET method. The adsorbate was high purity solid phenol (Fluka ® ≥ 99.5%). Experimental isotherms were determined at 293 K, 303 K and 313 K. The Freundlich and Sips theoretical models were used to fit the experimental data. Freundlich isotherm slightly diverges with the experimental results for higher equilibrium concentrations. Thermodynamic parameters were calculated and correlated with the adsorption behaviours. The values of the thermodynamic parameters obtained indicate an exothermic and spontaneous process for both carbons, and mainly for Norit. This is due to the fact that there might be chemically activated regions on the surface of the Norit carbon, which give rise to combined mechanisms of physisorption and chemisorption.Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicada