961 resultados para Biossorção de metais
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It is known that there is a wide variety of bioavailable trace metals in aquatic systems, and its determination is fundamental to predict impacts to organisms in these environments. However, the determination of the total concentration of chemicals in aquatic systems, despite its importance, does not provide necessary information for decision making or even may lead to misinterpretation of the procedures and potential risks to the system in question. This study aimed to use the technique of diffusion in thin films by concentration gradients (DGT) to evaluate the anion exchange membrane Whatman DE 81 as binder alternative in determining Cr (VI). Experiments were carried out to determine the diffusion coefficients for the material used diffusion (agarose gel). The behaviors of the binders were analyzed before the main variables of the systems, immersion time, pH and ionic strength. Then was made the assessment of potential interferences, to finally proceed with testing using actual samples in the laboratory and in situ
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Acupuncture is one of the oldest forms of treatment, which is based in the grounds of Traditional Chinese Medicine. Despite the ancient history, it’s not completely widespread in Brazil, neither so comprehensive in veterinary medicine as used in humans. The technique of inserting needles into acupuncture points, can also be stimulated by heat, electrical stimulation or implants of metal, is mainly focused on neuromuscular disorders in small animals. The difficulty of comprehension of language and the lack of cientific bases restricted the possible applications of acupuncture. This work will address some of the clinical situations this complementary treatment can act, such as neurological, cardiorespiratory, reproductive, gastrointestinal, immunological, and postoperative intensive care
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As they have excellent mechanical properties, corrosion resistance and biocompatibility, much research has been conducted with respect to biomedical applications of titanium alloys. This work aims to study the experimental system binary alloy Ti-15Mo, in the raw state of fusion and heat treatment after homogenization, solubilization and calcination (simulating conditions employed for nanotube growth) targeting biomedical applications. Samples were obtained by casting the components in an electric arc furnace with inert atmosphere of argon. After obtaining the alloy, it was heat treated at three different heat treatments, namely homogenizing, calcining and simulation solubilization. The phases present were analyzed by X-ray diffraction, optical microscopy and microhardness testing
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The aim of this study is to characterize the macrostructure and microstructure of Al - 1%Si alloy obtained in sand and metallic molds. Aluminium has good mechanical properties, but adding silicon, even in small quantities, can change the microstructure and improves mechanical behavior. Workpieces were castings in metallic and sand molds and one can see a difference in their cooling curve, macroscopic and microscopic structures. The sand mold casting has lower cooling rate and so its grains are larger. Due to the lower concentration of grain boundary, the hardness is lower compared to that found in metallic molds, which has smaller grains and a higher hardness. Therefore, it can be concluded that the cooling rate and alloying elements affect the final microstructure of the workpiece
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Worldwide environmental degradation is an undesirable byproduct resulting from the increasing demand for natural resources. Water sources are suffering intense contamination since they usually receive a huge amount of domestic and industrial effluents - which are mostly wasted without proper treatment - inserting a large number of pollutants in the environment, heavy metals included. Mercury holds great toxicological importance because, under some physicochemical conditions in a water environment, Hg (II) ion turns into methylated compounds stemming from this element, such as methylmercury CH3Hg, which is highly toxic for the aquatic community in which bioaccumulation occurs. Nowadays passive sampling techniques are being developed to enable the analytical procedures which are applied in environmental monitoring. Diffusive gradients in thin-films technique (DGT) has been proven an interesting tool for the determination of labile metal species due to its in situ application. The DGT technique consists of a piston-like device on which the following series of agents is disposed: a binding agent (conventionally Chelex 100 resin), a diffusive agent, usually a polyacrylamide gel, and a membrane filter. Nevertheless, the agents conventinally used for this technique don't usually show satisfactory results in mercury sampling. The main goal of this study was to evaluate the phosphate-treated cellulose membrane (Whatman P 81), an alternative material, as binding agent in the DGT to determine labile mercury fractions in aquatic systems. In this context, we conducted a study of the behavior of this material in relation with system variables, pH and ionic strength. Afterwards we performed immersions of the DGT devices in real and enriched samples and in situ aiming the determination of mercury
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Química - IQ
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To verify the levels of concentration of some heavy metals in fishes from Sorocaba river (São Paulo, Brazil) and evaluate if this contamination offers health risks to the fishermen, 63 samples of fishes collected from four points along the river were studied for cadmium, lead, chromium, nickel and mercury, with emphasis in this last, since it is the most toxic and most probable as a fish contaminant. Analyzing muscle samples by cold vapor atomic absorption spectrometry it was shown that the fishes are not contaminated. None of the five metals studied were present in prohibitive level and the fishes could be judged secure for human consume. It was also analyzed data from four years of cadmium, lead, chromium, nickel and mercury monitoring made by CETESB, from 1997 to 2000, in water from the main rivers of the State of São Paulo. The study pointed out that the majority of the monitored rivers still present contamination by those metals in a level that requires an improvement of the pollution control actions.
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Pós-graduação em Química - IBILCE
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O cultivo de citrus é uma das principais atividades agrícolas no Estado de São Paulo, sendo realizado em solos gerados a partir de diferentes materiais que conferem, naturalmente, variações na constituição química e mineralógica destes, além de poderem, ou não estar contaminados por metais tóxicos oriundos dos métodos defensivos. Com o objetivo de quantificar os atributos químicos e os teores de metais pesados do solo foi realizado um estudo comparativo entre solos assim cultivados, das regiões das cidades de Mogi Guaçu e São José do Rio Preto. Este estudo envolveu a determinação do pH do solo, análises volumétricas para quantificação dos teores de matéria orgânica, Ca+2, Mg+2 e Al+3 , espectrofotômetro de chama para o estabelecimento dos teores de Na+ e K+ e espectrofotômetro de absorção atômica para determinação dos teores de Cobre, Zinco, Cádmio, Cromo, Níquel e Chumbo. O solo da região de Mogi Guaçu apresentou-se mais ácido devido, provavelmente, a uma maior concentração de Al3+. Apresentou, também, teores mais elevados de matéria orgânica. Os solos de ambas as regiões apresentaramse deficientes em Na+ , K+ , Ca+2 e Mg+2 . A análise realizada para os metais pesados mostrou uma elevada quantidade de Níquel observada nas amostras de solo da região de São José do Rio Preto e, Níquel e Cobre, nas de Mogi Guaçu, com valores classificados como de prevenção, de acordo com os Parâmetros Orientadores da CETESB (2005). Estes teores de alerta devem-se, muito possivelmente, à adição exagerada de defensivos agrícolas.
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Inúmeros são os trabalhos versando sobre a contaminação de águas e solos por metais potencialmente tóxicos, ou metais pesados. O destaque sempre é dado para chumbo, mercúrio e, mais recentemente, cádmio que, também é, comprovadamente, carcinogênico. Em contrapartida, estudos sobre a toxicidade do manganês são raros devido, provavelmente, ao fato do mesmo ser um metal essencial à vida. Porém, absorvido em doses elevadas pelo organismo, pode provocar uma série de patologias e disfunções, algumas muito graves como déficit intelectual. Nesse trabalho procurou-se avaliar a concentração de manganês em amostras de solos cultivados e não cultivados de várias regiões do Estado de São Paulo. Surpreendentemente, algumas dessas amostras apresentaram teores até cinco vezes mais elevados do que o limite estabelecido como alto pelo Governo do Estado de São Paulo (que é de 5 mg/dm³). A provável fonte desse excesso reside na liberação de produtos de combustão e/ou na forma de aditivos aos combustíveis.
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Atualmente, devido ao considerável aumento populacional e consequente necessidade de maior produção de alimentos, tem-se incrementado, também, o investimento em tecnologias para a remediação de solos contaminados, em especial, por metais potencialmente tóxicos oriundos, principalmente, da disposição inadequada de resíduos industriais. Esses contaminantes não se restringem apenas aos solos. Podem ser carreados para os mananciais de águas superficiais ou conduzidos, pela infiltração das águas, aos mananciais subterrâneos. Neste trabalho, procurou-se apresentar as principais metodologias, em uso, para recuperação de áreas degradadas por solos assim contaminados.
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A contaminação do solo é um dos principais problemas ambientais, podendo ocorrer de diversas maneiras, sendo a principal causa fertilização e a calagem do solo, os quais, geralmente possuem em sua composição metais pesados. O objetivo deste estudo é avaliar a capacidade de adsorção de Cádmio em solo da cidade de Neves Paulista, com base nos modelos matemáticos de Langmuir e Freundlich, correlacionar a adsorção com os fatores pH e força iônica do meio e verificar, por meio da energia livre, a espontaneidade do processo de adsorção. Trata-se de solo arenoso de baixa acidez, pobre em matéria orgânica e com baixo teor de capacidade de troca iônica. Para avaliar a capacidade de adsorção de Cádmio, foram realizados experimentos variando a concentração do metal de 0 a 100 mg L-1 . A adsorção foi avaliada em diferentes valores de pH e de força iônica do meio. Observou-se que o modelo de Langmuir se ajustou melhor à adsorção do metal. A adsorção ocorre de maneira favorável em meio de força iônica baixa, e tende a ser desfavorável em valores mais elevados, demonstrando assim uma correlação negativa. Em relação ao pH a correlação foi positiva à adsorção. Os valores da energia livre foram negativos, o que demonstra a espontaneidade dos processos de adsorção.
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Several alloys present the shape memory effect and among them, the equiatomic NiTi alloy, nitinol, is the most important one. It is usually used in several engineering applications and also in biomedical devices, in the fabrication of orthodontic wire, stents and Judet staples. Although a considerable amount of these biomedical devices is utilized in Brazil and a fraction of it is already made here, all nitinol used is bought abroad. Thus, it is important to develop the necessary know-how to fabricate NiTi wire and sheet. It would mean less importation with job creation and wealth generation for the country. In this work nitinol was obtained powder metallurgy from elemental powders of Ti and Ni using uniaxial compression and uniaxial compression followed by isostatic compression. The final densities achieved were determined by the Archimedes method. The precipitation of intermetallic secondary phases was studied and the samples were characterized by metallographic analysis, optical microscopy and X-ray diffraction. Results indicated that 50 hours sintering route showed a low amount of intermetallics, and no trace of unreacted powder. XRD and metallography at room temperature indicated B19’ as the predominant phase, which corresponds to martensite. Although density results showed little dispersion, the most dense sample was compacted under uniaxial compression and presented 4.8 g/cm3, corresponding to 20.84% porosity. Density variation was considered normal to the measurement process and independent of the compaction mode
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The aluminium alloys are used in many fields because of their versatility combined with the excellent aluminium’s properties, mentioned in the study. This study aims to compare the performance of polished Hard Metal, Hard Metal covered with TiB2 and High Speed Steel (HSS) tools, at the aluminium 2024 alloy’s turning, as a function of variation of some turning parameters such as: feed, depth of cut and cutting speed; and study the surface finish and the required power during turning by processing the output data, like analyze the chip’s features for each used tool. The results provide information of the tool’s material effects, when submitted to different turning conditions, about the output variable in question. In this way, it was possible to notice that although the Hard Metal covered with TiB2 tool has provided the better surface finish, the chip’s features were better when the turning was accomplished by the Polished Hard Metal tool. In relation to the required turning’s power, the lowest consumption occurred with the High Speed Steel tool