Your search keyword '"Feris, Liliana A."' showing total 3 results

1. Nickel-zeolite composite catalysts with metal nanoparticles selectively encapsulated in the zeolite micropores.

Author

Peron, Deizi V., Zholobenko, Vladimir L., de la Rocha, Melissa Rodrigues, Oberson de Souza, Michèle, Feris, Liliana A., Marcilio, Nilson R., Ordomsky, Vitaly V., and Khodakov, Andrei Y.

Subjects

CATALYSTS, COMPOSITE materials, METAL nanoparticles, ZEOLITES, MICROPORES

Abstract

Metal-zeolite composite catalysts have found numerous applications in adsorption, gas separation, petroleum refining and chemical industry. The key issue in the design of these catalysts is localization of the metal within the zeolite structure. This paper focuses on a new approach to the synthesis of nickel-zeolite composite catalysts selectively containing metal nanoparticles inside the zeolite pores. In the catalysts prepared by conventional impregnation, metal particles from the external surface of the zeolites were selectively removed by extraction with bulky polymer molecules of poly-4-styrenesulfonic acid. The method is particularly suitable for the ZSM-5 zeolite with relatively narrow micropores. The nickel zeolite catalysts were tested in hydrogenation of toluene and 1,3,5-tri-isopropyl benzene (TIPB). The removal of nickel particles from the zeolite external surface leads to a considerable decrease in the hydrogenation rate of the bulky TIPB molecules, while toluene hydrogenation rate was affected to a much lesser extent and was almost proportional to the nickel content. The proposed methodology can be extended to other types of microporous catalysts. [ABSTRACT FROM AUTHOR]

Published

2019

2. External surface phenomena in dealumination and desilication of large single crystals of ZSM-5 zeolite synthesized from a sustainable source.

Author

Peron, Deizi V., Zholobenko, Vladimir L., de Melo, James H.S., Capron, Mickael, Nuns, Nicolas, de Souza, Michèle Oberson, Feris, Liliana A., Marcilio, Nilson R., Ordomsky, Vitaly V., and Khodakov, Andrei Y.

Subjects

*SURFACE chemistry, *SINGLE crystals, *ZEOLITES, *FLY ash, *SURFACE defects, *OXALIC acid

Abstract

Zeolite dealumination and desilication are common methods, which improve accessibility of the active sites located inside the zeolite crystallites and tune the zeolite acidity. The exact mechanism of these post-synthesis zeolite treatments remains under discussion. In this paper, a series of dealuminated and desilicated ZSM-5 zeolites are prepared using single or combined post-synthesis dealumination and desilication of large zeolite single crystals with oxalic acid and sodium hydroxide. The ZSM-5 zeolite has been synthesized using silica extracted from fly ash. Zeolite desilication results in the potholes, leaf-type structures and other clearly visible defects on the surface of zeolite crystallites, while the effect of dealumination is less pronounced. The low temperature nitrogen adsorption suggests the formation of mesopores in the zeolites formed by the voids between and in the irregular zeolite crystallites produced during post-synthesis treatments. 27Al and 29Si MAS NMR in combination with XRD data are indicative of only minor modifications of the bulk zeolite structure during dealumination and desilication. The total Brønsted acidity only slightly decreases and is not affected by the type of zeolite post-synthesis treatment. After desilication of large single crystals of ZSM-5, noticeable enhancement of the Brønsted acidity on the zeolite external surface has been detected by FTIR of adsorbed collidine. The zeolites with higher acidity on the external surface have shown higher activity in the anisole acylation with hexanoic acid. A combination of characterization techniques suggests that the dealumination and desilication of the large crystals of ZSM-5 zeolite using post-synthesis treatments respectively with acid and alkali selectively starts at the zeolite external surface. Image 1 • Desilication and dealumination strongly affect the surface of zeolite crystallites. • Potholes and other defects on the zeolite external surface contribute to mesoporosity. • Zeolite bulk structure is not altered at first stages of post synthesis treatments. • Higher acidity on the external surface enhances activity in the anisole acylation. [ABSTRACT FROM AUTHOR]

Published

2019

3. Síntese de zeólitas a partir de cinzas de carvão e aplicação como adsorventes

Author

Zen, Barbara Potrich, Feris, Liliana Amaral, and Marcilio, Nilson Romeu

Subjects

Adsorção, Síntese [Zeolitas], Cinza de carvão, Zeolites, Adsorption, Crystal violet dye, Coal ashes

Abstract

Cinzas oriundas da combustão de carvão são resíduos produzidos no processo de geração de energia em termoelétricas. Esses resíduos industriais podem ser aproveitados como matéria prima para síntese de zeólitas, as quais são materiais aluminossilicatos porosos com importantes aplicações, como adsorventes no tratamento de efluentes líquidos. Nesse contexto, o objetivo deste trabalho foi sintetizar zeólitas a partir de três diferentes cinzas de carvão e utilizá-las na remoção de corante violeta cristal em soluções aquosas via processo de adsorção. Para isso, foram sintetizadas zeólitas denominadas ZP, ZF e ZFD a partir de três diferentes cinzas de carvão, sendo elas, respectivamente: cinzas de carvão de combustão em leito pulverizado, de combustão em planta piloto de leito fluidizado e de combustão em planta piloto de leito fluidizado utilizando processo de dessulfuração interna. A síntese foi feita pelo método hidrotérmico, utilizando NaOH 3 mol L-1 como agente mineralizante, relação líquido/sólido (L/S) igual a 6 e tempo de reação de 24 h a 100 °C. Os materiais obtidos foram submetidos à caracterização física, química e morfológica, nas quais foi observada a formação de três diferentes fases zeolíticas (zeólitas P, X e sodalita) nas amostras ZF e ZFD, e uma única fase (zeólita P) na amostra ZP. Os valores de área superficial BET encontrados foram de 17, 35 e 40 m2 g-1 para as zeólitas ZP, ZFD e ZF, respectivamente, com tamanho de poros na faixa de 3 a 4 nm para os três materiais. Os valores de capacidade de troca catiônica (CTC) ficaram entre 2,07 e 2,85 meq NH4 + g-1. Posteriormente foram realizados ensaios de adsorção do corante em que foi avaliada a influência do pH, tempo de contato e concentração de sólido adsorvente. Ainda, foram construídas isotermas de adsorção para esses sistemas e os modelos de isotermas de Langmuir, Freundlich e BET modificado foram ajustados aos dados experimentais. Os resultados mostraram que a maior eficiência foi obtida pela zeólita ZF, alcançando máxima remoção de corante de 85 % nos estudos do efeito do tempo de contato, e as melhores condições experimentais obtidas foram de 60 min e 15 g L-1 de concentração de sólido adsorvente. O modelo de isotermas que melhor se ajustou aos dados experimentais foi BET modificado, com R2 = 0,9894. A síntese de zeólita a partir de cinzas de carvão mostrou potencial na produção de um adsorvente alternativo para remoção do corante violeta cristal de águas contaminadas, contribuindo também para a diminuição do impacto ambiental das atividades de combustão de carvão. Ashes from coal combustion are waste produced in the process of power generation in thermoelectric. These industrial wastes can be used as raw material for zeolite synthesis, which are porous aluminosilicate with important applications, such as adsorbents in the treatment of liquid effluents. The objective of this study was to synthesize zeolites from three different coal ash and apply it in crystal violet dye adsorption processes in aqueous solution. Thereunto, zeolites called ZP, ZF e ZFD were synthesized from the three different coal ashes, as so, respectively: coal ashes from powdered bed combustion, from combustion in a fluidized bed pilot plant and from combustion in a fluidized bed pilot plant with internal desulphurization. The synthesis was carried by hydrothermal method, using NaOH 3 mol L-1 as the mineralizing agent, the liquid/solid ratio (L/S) equal to 6 and 24 hours reaction time at 100 ° C. The materials were subjected to physical, chemical and morphological characterization and it was observed the formation of three different zeolite phases (zeolites P, X and sodalite) in the sample ZF and ZFD, and a single phase (zeolite P) in ZP sample. The BET surface area values were 17, 35 and 40 m2 g-1 to ZP, ZFD and ZF zeolites, respectively, with pore size in the range of 3 to 4 nm for all three materials. The values of cation exchange capacity (CEC) were between 2.07 and 2.85 meq NH4 + g-1. Subsequently, adsorption tests were carried out in which it was evaluated the influence of pH, contact time and adsorbent solid concentration. Still, adsorption isotherms were built for these systems and isotherm models of Langmuir, Freundlich and modified BET were fitted to experimental data. The results showed that the highest efficiency was obtained by zeolite ZF, achieving maximum dye removal of 85 % in the studies of contact time effects, and the best experimental conditions were 60 min and adsorbent solid concentration of 15 g L-1. The BET isotherm model was found to be the best fit to experimental data, with R2 = 0.9894. The zeolite synthesis from coal ash has shown potential in the production of an alternative adsorbent to remove the crystal violet dye from contaminated water, also contributing to reducing the environmental impact of coal combustion activities.

Published

2016