923 resultados para Carbono orgánico
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Engenharia Mecânica - FEG
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Pós-graduação em Agronomia (Horticultura) - FCA
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Zootecnia - FCAV
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Pós-graduação em Química - IQ
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The relationship between the microstructure and the magnetic properties of soft magnetic materials, have been studied by different researchers who seek to employ electrical systems, increasing their life span and reduce their energy consumption. Following this same line the Brazilian Synchrotron Light Laboratory developed a new synchrotron light source, the Sirius, where magnetic materials with high magnetic permeability values are being studied for use in accelerator dipoles. The low carbon steel is a ferromagnetic material that has a great relationship between cost and magnetic permeability. Aiming to raise the values of permeability of the material, heat treatments were done and evaluated the magnetic properties, microstructure and mechanical properties to correlate them. It was noted that the thermal annealing were the most effective, and the annealing performed with a small time threshold, which only phenomenon observed was the primary recrystallisation, was the most elevated values of magnetic permeability of the material, due to the average grain size ideal achieved. The heat treatments do not guide the magnetic domains of the material and not influence the mechanical properties of the material due to lack of carbon in the microstructure. The annealing treatments were shown to be an alternative to raising the values of the magnetic permeability of the material and facilitate the implementation of ultra low carbon steel in the dipoles of Sirius
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The fracture surfaces express the sequence of events of energy release due to crack propagation by linking the relief of the fracture to the loading stresses. This study aims to evaluate the heterogeneity of the critical zone for the advancement of the crack along its entire length in a thermoset composite carbon fiber and epoxy matrix, fractured in DCB testing (Double Cantilever Beam) and ENF (End-Notched Flexure). Investigations were made from image stacks obtained by optical reflection of extended depth from focus reconstruction. The program NIH Image J was used to obtain elevation map and fully focused images of the fracture surface, whose topographies were quantitatively analyzed. The monofractal behavior for DCB samples was assessed as being heterogeneous along the crack front and along the crack for all the conditionings. For the samples fractured in ENF test, there was a strong positive correlation to the natural condition, considering the fibers at 0° for the monofractal dimension and structural dimension (Df and Ds). For fibers at 90° to crack propagation, there was a moderate positive correlation for the textural dimension of natural condition. However, for the samples under ultraviolet condition and those subjected to thermal cycles, there was no correlation between the fractal dimension and fracture toughness in mode II
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After the isolation of Helicobacter pylori from an injury at the stomach mucosa by Marshall and Wareen, work that was recognized with the Nobel Prize of Medicine or Physiology in 2005, many other works showed the relationship between the presence of H. pylori and diseases at the digestive system, such as gastritis, gastric, duodenal and peptic ulcer, and stomach cancer. The 13C-Urea Breath Test - 13C-UBT is a non-invasive diagnostic method that utilizes the breath of a patient to determine the presence of H. pylori through stable isotopes. This work aimed to find an ideal 13C-UBT Isotopic Ratio Mass Spectroscopy cut-off value (a threshold between positive and negative) to diagnose H. pylori infection at Brazilian population. Patients were selected at the UNESP-Botucatu Clinical Hospital Endoscopy Section. With these results it was possible to indicate that the best cut-off value is between 2.5 to 6 ‰ of Delta Over Baseline (DOB)
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The energy is considered one of the most important elements in the human´s life providing the survival as well as the well being. Nowadays, the technologies destined to generate power burn fossil fuels which pour gases (carbon dioxide among them) that contribute to the global warming phenomenon. Several research groups and universities have been studying different methods for generating power with low carbon dioxide emissions, including the possibility of burning zero-carbon fuels. In this text, it has been put attention to the Advanced Zero Emission Power Plants (AZEP) which separate the CO2 (from the gases involved in the power generation), compress it, dehydrate it and store it in appropriate reservoirs. The goal of this study was to find a possible solution to produce CO from CO2, activated by solar energy; the reaction between CO and steam generates a syngas comprised of H2 and CO2, which can be separated by chemical and/or physical processes. The text also contains a study concerning the compressed air energy storage power plant (CAES) and come up with its modification to C[CO2]ES. This power plant stores CO2 directing it to a reverse combustion process to produce CO which is headed to a syngas reactor to produce CO2 and H2. Hydrogen is separated and carried to the thermal cycle to generate power with low carbon emissions
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Os biossurfactantes, moléculas tenso-ativas sintetizadas por microrganismos, apresentam propriedades biológicas e superficiais que podem ser aplicadas a processos industriais diversos. Apesar das vantagens apresentadas, não são amplamente utilizados pela indústria, devido ao alto custo de produção, baixa produtividade e uso de substratos caros. Bactérias do gênero Pseudomonas são conhecidas por sintetizarem ramnolipídios, moléculas tenso-ativas promissoras em termos de produção industrial, por apresentarem excelentes propriedades tenso-ativas, além de características físico-químicas e biológicas que permitem a obtenção em concentrações superiores a outros biossurfactantes. O uso de substratos alternativos seria uma estratégia que facilitaria o desenvolvimento industrial de sua produção. A proposta deste trabalho é dar continuidade ao estudo da produção de ramnolipídios a partir de substratos não-convencionais (n-parafina, óleos vegetais utilizados em frituras, glicerol) por isolados de P. aeruginosa.
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Silver nanoparticles (Ag) were deposited on multi-walled carbon nanotube by eletroless. The hybrid Ag/MWCNT was used in the modification of glassy carbon electrode (GC) surface. The electrochemical characterization confirmed the presence of Ag in the nanocomposite has been showed that the synthesis was successful. The GC electrode modified with Ag/MWCNT film was evaluated for electro-oxidation of benzene. The electrochemical behavior presented an improvement on the catalytic surface in relation to non-modified GC electrode. The anodic peak current increased the magnitude in three times when compared with the CG electrode modified only with MWCNT
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The glassy carbon is a material with a huge technological evolution. Due to its lightness, biocompatibility and their thermal and electrical properties this material finds applications in several industrial fields such as electronics, medical, aerospace and chemical. In order to explore the conductive properties of glassy carbon for use as modified electrodes, the present work aims the processing of monolithic and reticulated glassy carbon with colloidal copper for use in electrochemical applications. First, the best parameters for the cure of furfuryl alcohol resin doped were established through viscosimetry measurements and pressurized differential scanning calorimetry. The analysis of the micrographs of the cured resins show that copper concentrations above 3% weight, generate higher porosity in the material. The characterizations of the monolithic and reticulated glassy carbon resulting from carbonization were performed by scanning electron microscopy (SEM), Raman and Electrochemical impedance spectroscopy, and although it was not possible to detect the presence of copper by SEM, the influence of these particles have been observed by Raman and FT-IR spectra and electrochemical behavior of the material. The decrease in conductivity of monolithic and reticulated glassy carbon in the presence of copper may be related to the defects caused by the presence of copper in the structure of the material.
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O trabalho teve como objetivo principal identificar a produção de enzimas xilanolíticas de um fungo encontrado no solo amazônico a partir do seu crescimento em diferentes fontes de carbono e em dois tipos de meio de cultivo: meio semi sólido e meio líquido Vogel. No mei semi sólido o crescimento do fungo aconteceu durante 7 dias, já no meio líquido foi feito em quatro tempos diferentes: 24, 36, 48 e 52 horas. As fontes de carbono usadas para ambos os meios foram: Após o crescimento os meios foram filtrados e foram realizadas a dosagem de proteína pelo método de Lowry e a determinação da atividade específica. Os filtrados foram concentrados através de tratamento com caulin, diálise e precipitação com acetona. Com os filtrados selecionados pode-se determinar o pH e a temperatura ótimas para a xilanase através de curvas de pH e temperatura. O fungo estudado produz enzimas do complexo xilanolítico, sendo que os melhores resultados foram encontrados usando a xilana no meio líquido e o sabugo de milho no meio semi sólido. Para a enzima encontrada o pH de atividade ótima é no valor 5,0 e foram encontrados dois picos de temperaturas ótima, na faixa de 30ºC e 60ºC, o que pode indicar a presença de mais de uma enzima do complexo xilanolítico
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Ultimamente várias áreas da ciência vêm se unindo a fim de compreender, elucidar, retardar e reverter o processo do envelhecimento da pele. Tal processo deve ser estudado, pois as mudanças no aspecto exterior podem revelar disfunções que ocorrem internamente, além de trazer conseqüências psíquicas sobre o comportamento da pessoa, tanto diante de si mesma como diante das outras. A utilização de matérias-primas naturais orgânicas em formulações farmacêuticas e cosméticas segue uma tendência de mercado, haja vista o grande impulso que o mercado orgânico tem ocasionado na economia. Dentre estas matérias-primas, destaca-se a utilização do cacau orgânico que, pelo fato de ser rico em compostos polifenólicos e taninos condensados, acredita-se apresentar potencial ação antioxidante. Associados a sistemas nanoestruturados inovadores, como os sistemas líquido-cristalinos constituídos por silicones formadores de filme, a ação antioxidante do cacau orgânico pode, dessa forma, ser potencializada. Este trabalho tem como objetivos desenvolver e caracterizar sistemas líquido-cristalinos acrescidos de extrato de semente de cacau orgânico, avaliar a estabilidade físico-química e a atividade antioxidante das formulações obtidas. Realizou-se a caracterização do pó de cacau por microscopia óptica. A partir do pó do cacau, obteve-se extratos hidroalcóolicos do pó, a partir do qual foram quantificados compostos fenólicos utilizando o reagente Folin-Ciocalteu e determinada a atividade antioxidante com base na ação seqüestrante do radical 1,1-difenil-2-picrilhidrazila (DPPH). Posteriormente, o extrato foi incorporado em um sistema constituído por acido oléico e polioxietileno 20 cetil éter, o qual foi caracterizado estruturalmente empregando análises de microscopia de luz polarizada, espalhamento de raios-X a baixo ângulo (SAXS) e comportamento reológico... (Resumo completo, clicar acesso eletrônico abaixo)