Thiago F. Chaves scite author profile

The ZSM-5 zeolite (MFI structure, Si/Al = 40) was treated using NaOH and either oxalic acid or HCl to obtain hierarchical materials with different characteristics, followed by impregnation with vanadium oxides (V 2 O 5) to generate redox-active sites. The impact of the multiple treatments on the efficiency and stability of the catalysts in the conversion of glycerol to acrolein and acrylic acid was investigated and correlated with catalyst porosity, acidity, and chemical composition. The treated and impregnated V 2 O 5 catalysts were subjected to XRD, 27 Al NMR, nitrogen physisorption, TPD-NH 3 , TG, and UV-Vis analyses, in order to associate the properties of the catalysts with their activities. The studies showed that the catalytic performance of the materials depended on the acidic and textural properties of the zeolites, which influenced both the dispersion of V 2 O 5 and its interaction with the acid sites of the supporting zeolites. All the catalysts provided conversion values exceeding 65%, even after 6 h on glycerol stream. The distribution of products strongly reflected the effects of pore formation, acid treatment with oxalic acid or HCl, and the presence of vanadium oxide. The effects of these modifications resulted in higher selectivity to acrolein and acrylic acid, a reduced rate of coke accumulation in the zeolite, and a longer catalyst lifetime.

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Equilibrium and kinetic studies of the adsorption of antibiotics from aqueous solutions onto powdered zeolites

Sousa

Insa²,

Mozeto

et al. 2018

Chemosphere

143

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The performances of two FAU-type zeolites with different SiO/AlO ratios were evaluated for the removal of antibiotics of three different classes, namely azithromycin, ofloxacin, and sulfamethoxazole, from aqueous solutions. Commercial zeolites were used, without any previous treatment. Use of a small adsorbent dosage resulted in fast antibiotic adsorption that followed pseudo-second order kinetics. The removals of azithromycin and sulfamethoxazole were highly pH-dependent, with low removal percentages observed under acid (pH 2.5-4.5) and basic (pH 8.5-10.5) conditions, respectively. The Freundlich isotherm model provided the best fits to the adsorption data. The adsorption mechanisms appeared to involve both electrostatic and H-bonding interactions. Using an antibiotics mixture, percentage removals of azithromycin and ofloxacin onto the zeolites of up to 79% were obtained. Both materials presented good adsorption (>50%) of azithromycin and ofloxacin from a real sample of effluent wastewater. The results showed that zeolites with FAU structure can be used as effective adsorbents for the removal of antibiotics with different physicochemical properties, including molecules with large volumes, such as azithromycin.

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Sol-gel synthesis of nanocrystalline MgO and its application as support in Ni/MgO catalysts for ethanol steam reforming

Possato

Gonçalves

Santos

et al. 2021

Applied Surface Science

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Uso da cinza da casca do arroz (CCA) obtida da geração de energia térmica como adsorvente de Zn(II) em soluções aquosas

Chaves¹,

Queiroz²,

Nara³

et al. 2009

Quím. Nova

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Recebido em 5/3/08; aceito em 26/1/09; publicado na web em 25/6/09 USE OF RICE HUSK ASH (RHA) OBTAINED FROM THERMAL ENERGY GENERATION AS Zn (II) ADSORBENT IN AQUEOUS SOLUTIONS. The removal study was conducted using 1.00 g of the rice husk ash (RHA) and 20.0 mL solution with concentrations in the range of 10-1000 mg/L of Zn(II). The influence of contact time, initial metal concentration, agitation and pH of the removal process was investigated. Superior removals to 95% were obtained at the end of 24 h of contact. The agitation increased in 20% the removal of Zn(II), being needed only 5 min to reach the equilibrium. The adsorption process was studied by the models of isotherms of Langmuir, Freundlich and BET, obtaining results of R L and 1/n for a process favorable of adsorption. BET isotherm best represents the equilibrium adsorption. The results showed that the RHA has the largest capacity and affinity for the removal of Zn(II).Keywords: rice husk ash; removal; Zn (II). INTRODUÇÃOSabe-se que a Terra possui uma capacidade finita tanto para a disponibilidade de recursos como para o descarte dos resíduos, fato que acentua a importância da minimização de perdas ambientais, bem como do uso mais eficiente de recursos e de energia para um desenvolvimento sustentável das nações. Assim, é evidente a necessidade de novas tecnologias para uma produção ambientalmente adequada. 1 Ao longo de décadas, a atividade industrial tem produzido rejeitos gasosos, líquidos e sólidos nocivos ao meio ambiente. Os processos industriais que utilizam grandes volumes de água contribuem significativamente com a contaminação dos corpos d'água, principalmente por metais, que têm seu impacto ambiental aumentado pela falta de tratamento dos efluentes. 2 As tecnologias tradicionais para o tratamento de água (coagulação, floculação, decantação, filtração e desinfecção) em geral não são totalmente eficientes na remoção de traços de metais solúveis em águas. O processo comumente aplicado à remoção de íons metálicos solúveis em água é a precipitação. A remoção dos metais se dá na forma de óxidos, hidróxidos, carbonatos ou sulfatos, decorrentes da adição de coagulantes e/ou álcalis. Esta técnica produz grandes quantidades de lodo após a decantação. A precipitação de metais pesados na forma de colóides ou de gel amorfo e sua ocorrência na forma de ânions, bem como a presença de substâncias complexantes em solução, dificultam o processo de precipitação. Para efetiva remoção dos metais pesados por precipitação, as condições de pH e temperatura devem ser rigidamente controladas. Frequentemente, após a filtração final, a concentração dos metais pesados na água ainda permanece na faixa de alguns miligramas por litro. 3 A adsorção é um processo de separação, tecnologia importante e muito usada na Química. Os carvões ativados são os adsorventes mais utilizados para esse fim, por apresentarem alta área superficial e porosidade desenvolvida. O custo dos carvões ativados comerciais é ainda um dos empecilhos do seu uso em larga escala industrial, o que tem conduz...

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Thiago F. Chaves

A simple synthesis procedure to prepare nanosized faujasite crystals

The multiple benefits of glycerol conversion to acrolein and acrylic acid catalyzed by vanadium oxides supported on micro-mesoporous MFI zeolites

Equilibrium and kinetic studies of the adsorption of antibiotics from aqueous solutions onto powdered zeolites

Sol-gel synthesis of nanocrystalline MgO and its application as support in Ni/MgO catalysts for ethanol steam reforming

Uso da cinza da casca do arroz (CCA) obtida da geração de energia térmica como adsorvente de Zn(II) em soluções aquosas

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