Your search keyword '"X-ray diffractometers"' showing total 6 results

1. Caracterização tecnológica de catalisadores automotivos desativados visando o aproveitamento de Pt, Pd e Rh.

Author

Teixeira Baia, Renan, Bittencourt Oliveira, Kleber, Negrão Macêdo, Emanuel, and Alves da Silva, Jéssica

Subjects

*PLATINUM group catalysts, *RAMAN spectroscopy, *X-ray diffractometers, *POLLUTANTS, *CORDIERITE, *PRECIOUS metals, *SCANNING electron microscopes

Abstract

The use of automotive catalysts has been increasing in recent decades. With the strict regulations governing the emission of polluting gases, the number of catalysts that are discarded also grows, generating enormous volume of waste, which can be a source for urban mining. The objective of this work is to characterize deactivated automotive catalysts in terms of mineralogical, structural and elemental composition, quantitatively and qualitatively. The analyzes were performed in granulometry by laser diffraction, X-ray diffractometer (XRD), scanning electron microscope with X-ray energy dispersion spectroscopy (SEM / EDS), Raman spectroscopy and inductive coupling plasma optical spectrometry (ICP-OES). The studied automotive catalyst presented cracks and contaminants such as P, Ca, F, C and S, accentuating the deactivation process. The largest composition identified was cordierite, corresponding to 40.17%. The catalysts of the platinum group identified in the automotive catalyst were, Pd (0.92%), Pt (0.03%) and Rh (0.17%). [ABSTRACT FROM AUTHOR]

Published

2020

2. Preparação de catalisadores Pt/CeO2 via método de redução por álcool para a oxidação preferencial de monóxido de carbono em misturas ricas em hidrogênio (PROX-CO)

Author

Carla Moreira Santos Queiroz, Estevam Vitorio Spinacé, José Mansur Assaf, João Guilherme Rocha Poço, Liane Marcia Rossi, and Estevam Vitorio Spinac??

Subjects

iron alloys, oxidation, x-ray diffractometers, selective catalytic reduction, alcohol fuel cells, streams, catalysts, carbon monoxide, alcohols, ruthenium alloys, electrochemical cells, x-ray diffraction, processing, platinum, hydrogenation, cerium alloys, scanning electron microscopy, tin alloys

Abstract

O interesse pela produção e purificação do hidrogênio tem aumentado nas últimas décadas, particularmente porque este importante insumo pode ser utilizado para geração de energia limpa e sustentável, via tecnologia de células a combustível. No entanto, para o emprego nesses dispositivos de conversão de energia, é imprescindível que o hidrogênio utilizado seja de altíssima pureza. Dentre os contaminantes presentes no gás hidrogênio, destaca-se o monóxido de carbono, que envenena os eletrodos do sistema de célula a combustível, levando a desativação e consequente perda de sua eficiência. Para purificação do hidrogênio, um dos processos mais promissores refere-se à oxidação preferencial do monóxido de carbono catalisada (PROX-CO), pois promove a remoção de CO para níveis menores que 100 ppm. Nesse contexto, este trabalho teve como objetivo estudar o desempenho de catalisadores de Pt/CeO2, Pt-Fe/CeO2, Pt-Sn/CeO2 e Pt-Ru/CeO2 destinados à reação de PROX-CO, preparados através do método de redução por álcool, que consiste na preparação de dispersões coloidais de nanopartículas, numa única etapa de síntese, apresentando tamanho e distribuição bem uniformes. Este é um método bastante promissor, amplamente utilizado para preparação de eletrocatalisadores para aplicações em célula a combustível, mas que ainda não está relatado na literatura como método de síntese de catalisadores destinados à reação de PROX-CO. Os catalisadores estudados foram caracterizados através de técnicas de espectrometria dispersiva de raios X, difração de raios X, microscopia eletrônica de transmissão e redução com hidrogênio à temperatura programada. Os desempenhos catalíticos foram avaliados na reação PROX-CO, conduzidos em pressão atmosférica e temperaturas variando desde ambiente até 150 °C. Os resultados revelam que os catalisadores de Pt-Fe/CeO2 apresentam-se como os mais promissores para purificação de correntes ricas em hidrogênio via reação de PROX-CO. Nowadays, the interest in the production and purification of hydrogen has increased, not only because of its wide use in practically all industrial sectors, but mainly because it is essential raw material employed to generate clean and sustainable energy by fuel cell technology. However, the hydrogen for fuel cell devices must be of highest purity. Among the contaminants present in hydrogen stream, carbon monoxide is the critical one, since it is a poison for electrodes of the fuel cell system, leading to its deactivation and consequent loss of efficiency. A promise process that has been considered to decrease the CO to acceptable levels (< 100 ppm) is the preferential oxidation of carbon monoxide reaction (CO-PROX), which involves the catalytic conversion of CO to CO2. Thus, this work aimed to study the catalytic performance of Pt/CeO2, Pt-Fe/CeO2, Pt-Sn/CeO2 e Pt-Ru/CeO2 catalysts for CO-PROX reaction, which were prepared using the alcohol-reduction method, which consists to prepare nanoparticles colloidal dispersions, in a single step, producing uniform particle size and distribution. This is a very promising method, widely used for the preparation of electrocatalysts for fuel cell applications, but it is not yet reported in the literature as a synthesis methodology for CO-PROX catalysts. The prepared catalysts were characterized by dispersive X-ray spectrometry, X-ray diffraction, transmission electron microscopy and temperature-programmed reduction of hydrogen. The catalytic performance experiments for CO-PROX reaction were carried out under atmospheric pressure and at the temperature range from room to 150 ºC. The results revealed Pt-Fe/CeO2 catalysts as the most promising to effectively produce highest purity hydrogen via CO-PROX reaction.

Published

2020

3. Viabilidade técnica da fabricação de cimento com mistura de escória de aciaria LD e resíduo de granito.

Author

Arrivabene, Lúcio Flávio, Pinto Junior, Luiz Alberto Baptista, de Oliveira, José Roberto, Tenório, Jorge Alberto Soares, and Espinosa, Denise Crocce Romano

Subjects

*FEASIBILITY studies, *INDUSTRIAL clusters, *INDUSTRIAL wastes, *GRANITE, *SLAG cement, *X-ray diffractometers, *BLAST furnaces, *MANUFACTURING processes

Abstract

This article studies the technical feasibility of manufacturing cement agglomerated with granite block sawing waste and LD steel slag. The ma-terials were mixed in order to maintain the relationship %CaO / %SiO, of the mixture equal to 1:2. The mixture was melted and rapidly cooled in water. The sample was characterized and the X-ray diffractograms showed an amorphous material and the presence of mineral phases akermanite arid gehlenite, which were considered ideal mineral phases for hydraulic activ-ity. This mixture was added to clinker for cement production. The cement made with this mixture was tested for comparison with the blast furnace slag cement. These results indicate a technical feasibility for manufacturing cement with this mixture. [ABSTRACT FROM AUTHOR]

Published

2012

4. Atividade pozolânica de arenito zeolítico da região Nordeste do Brasil.

Author

de Souza Picanço, Marcelo, Angélica, Rómulo Simões, and Barata, Márcio Santos

Subjects

*ZEOLITES, *SANDSTONE, *PORTLAND cement, *X-ray diffractometers, *TEMPERATURE effect, *ANALYTICAL chemistry, *THERMOGRAVIMETRY

Abstract

In northeastern Brazil, sedimentary zeolites occur associated with sandstones of the Corda Formation (Parnaiba Paleozoic Basin), discovered in the 2000s. These sandstones are composed of quartz, natural zeolites (estilbite) and clay minerals (smectite). Preliminary studies have shown that this sandstone can be used as a poz-zolanic material in Portland-cement-based systems after the material has been sieved to remove the quartz and after thermal activation because the estilbite has low poz-zolanic activity. The main objective of this study was to determine the best particle size distribution that yields the highest smectite and zeolite concentration, besides the best temperature for higher pozzolanic activity. The experimental program employed the zeolitic sandstone passing through a #200 and #325 mesh sieve and calcination at the following temperatures: 150°C, 300°C and 500°C. Chemical analysis of the sieved samples was carried out by X-ray fluorescence spectroscopy and X-ray diffractometry, while mineralogical character-ization was done by X-ray and thermogravimetric analysis and thermogravimetry. To assess reactivity, calorimetry driving and mechanical tests for pozzolanic activity in hydrated lime and cement Porltand were performed. The results showed that the sample sieved through at #200 mesh was the most suitable because it had a higher concentration of estilbite and a higher percentage of material seived compared to the sample sieved at #325 mesh, 15% and 2% respec-tively. The 500°C calcination temperature was accompanied by increased pozzolanic activity due to changes in estilbite and smectite cristalinity; the more moderate tem-peratures ofl50°C and 300°C were not sufficient to achieve similar results. The mortars with sandstone sieved at #200 mesh and calcinated at 500°C reached the minimum limits required for a material to be considered as pozzolanic, i.e, 6 M Pa for hydrated lime mortars and 75% for the pozzolanic index activity (PA I). [ABSTRACT FROM AUTHOR]

Published

2012

5. Síntese de zeólitas a partir de cinza volante de caldeiras: caracterização física, química e mineralógica.

Author

Rocha Junior, C. A. F., Santos, S. C. A., Souza, C. A. G., Angélica, R. S., and Neves, R. F.

Subjects

ZEOLITES, FLY ash, COAL ash, WASTE products, SCANNING electron microscopy, X-ray diffractometers

Abstract

The article presents a study that examines the physical, chemical, and mineralogical characteristics of zeolite synthesis from boiler fly ash in the Amazon region. It explores the method of the study that uses scanning electron microscopy, granulometric analysis, and X-ray diffractometry to accurately determine the components of the element. The result of the study indicates that the mixture of ash-microsilica point to a promising material for zeolite synthesis.

Published

2012

6. COMPORTAMENTO DA OXIDAÇÃO NA FASE ICOSAEDRAL DO QUASICRISTAL Al62, 2Cu25,3 Fe12,5.

Author

Nascimento, L., Agostinho, L. C. L., and Cavalcanti, B. F.

Subjects

*OXIDATION, *QUASICRYSTALS, *HEAT transfer, *X-ray diffraction, *X-ray diffractometers, *ALUMINUM oxide

Abstract

Oxidation behavior of the quasicrystalline alloy with nominal composition Al62,2 Cu25,3 Fe12,5 was analyzed under different conditions of duration of thermal treatment. It was used X - Ray Diffratometry to follow the alloy phases evolution and Scanning Electron Microscopy (SEM) to analyze the quasicrystal morphology and oxidation. Below 750° C the alloy shows intermetallic phases with associations of the alloy elements and above 675° C the crystalline phase is stable. In icosahedral phase, aluminum oxidation forms a dense passivating layer at the outmost surface of the quasicrystal which causes depletion in both copper and iron. In the dense layer it was observed not only the presence of alumina, γ - Al2O3, but also the formation of hematite. [ABSTRACT FROM AUTHOR]

Published

2009