Correlação entre condição da superfície do solo agrícola e o coeficiente de absorção acústica

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Crescimento inicial e absorção de zinco pelo milho em função do modo de aplicação e fontes do nutriente

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Caracterização dos finos de areia de uma fundição e sua incorporação em argamassa de cimento

Pós-graduação em Engenharia Civil e Ambiental - FEB

A espectroscopia de reflectância no infravermelho próximo pode predizer consumo, digestibilidade e balanço do nitrogênio de dietas alto concentrado de ovinos

Pós-graduação em Zootecnia - FCAV

Caracterização do compósito obtido a partir de borracha natural com negro e resíduos de couro aplicado como pisos e revestimentos

Pós-graduação em Ciência e Tecnologia de Materiais - FC

Interação fungo micorrízico arbuscular e adubação fosfática no crescimento e absorção de nutrientes pelo porta-enxerto limoeiro Cravo

Estudou-se o efeito da inoculação com fungo micorrízico arbuscular (FMA), Glomus etunicatum, Glomus clarum, ou Scutelospora heterogama, e da adição de fósforo solúvel (15, 30, 45, 60, 120 e 240 mg de P kg-1 de terra) sobre as variáveis altura, número de folhas, diâmetro do caule, massas vegetais aérea e radicular, teores de nutrientes nas folhas e colonização micorrízica no porta-enxerto limoeiro Cravo (Citrus limonia (L.) Osbeck). Os FMAs, Glomus etunicatum e Glomus clarum, e doses crescentes de fósforo exerceram efeitos significativos sobre essas variáveis. O efeito da inoculação sobre as variáveis de crescimento vegetal foi mais acentuado nos tratamentos com adição de 30 a 60 mg de P kg-1 de terra. Para o teor de P foliar, o efeito da inoculação foi mais acentuado nos tratamentos adicionados de 120 a 240 mg de P kg-1 de terra. A inoculação com estes FMAs aumentou a eficiência do limoeiro Cravo em absorver nutrientes, tanto que as variáveis estudadas em plantas inoculadas na ausência de adubação fosfática superaram às de plantas não inoculadas em substrato adicionado de 240 mg de P kg-1 de terra.

Absorção e níveis críticos de fósforo na parte aérea da mamoneira cultivada em diferentes classes de solos

Soil that has a high degree of weathering, with more inorganic P bound to Fe and Al oxides, has less P availability to plants. Thus, the critical element of a plant refers to the level below which the growth rate and plant production decreases, demonstrating the need for supplementary fertilization. Accordingly, an experiment was conducted in a greenhouse at Embrapa Algodao with the objective of evaluating the response of castor plants to five doses of P in four types of soil with different adsorption characteristics and critical levels of foliar P. The experimental design was completely randomized in a 4 x 5 factorial design, four types of soil and 5 levels of P with four replications. For TCo, there was an increase in height growth, with dose of 229.6 mg dm(-3) responsible for maximum plant height (74.3 cm). The largest diameter stem (17.58 mm) was observed in CXve with an application of 229.6 mg dm(-3) of P; a decrease was seen when using higher doses. The increase in leaf area was smaller in RY (4724.8 cm(2)), where it was obtained with a dose of 280.2 mg dm(-3). In general, critical levels of P in the plant shoots did not vary much between the soils. The critical level of P in castor bean shoot dry mass was higher (4.61 g kg(-1)) in TCo, this result being directly related to the low clay content of the soil.

Desenvolvimento de nanopartículas de quitosana para adminstração nasal de zidovudina

Zidovudine (AZT) is the drug most commonly used in AIDS treatment, isolated or in combination with other antiretroviral agents, but it has certain limitations due to its therapeutic dose-dependent haematological toxicity. In addition, it has low oral bioavailability, since it undergoes pre-systemic metabolism. The nasal route has been used as an alternative route for drug administration, because it can promote its direct absorption to blood circulation, avoiding hepatic metabolism. However, this route presents as a factor limiting the mucociliary clearance mechanisms that remove quickly the formulation of the nasal cavity. To prolong the residence time of formulations, in this direction, has been proposed the development of mucoadhesive systems. Among the various existing systems, the use of chitosan (QS), as mucoadhesive polymer, has been widely exploited in the preparation of nanoparticles (NPs). The objective of this study was to develop and characterize QS’s NPs for intranasal administration of AZT. For both NPs have been developed by ionic crosslinking of QS with sodium tripolyphosphate (TPP). These NPs were characterized by studies of particle size distribution, zeta potential, morphology, mucoadhesion tests, assessing the ability of encapsulation of the drug and permeation profile of AZT. The evaluation of AZT in the NPs was determined by UV-Vis spectroscopy. Mucoadhesion measures were made using a texture analyzer, using a mucin disk and porcine mucous membrane , and permeation assay were conducted using porcine nasal mucous membrane adapted to the Franz cell. These results suggest that the systems in hand have great potential for nasal AZT administration

Scaffolds de polihidroxibutirato construídos por prototipagem rápida funcionalizados com hidroxiapatita e peptídeo osteogênico

Com a evolução da engenharia tecidual novos materiais estão sendo estudados visando o tratamento de defeitos ósseos. O objetivo deste projeto foi preparar e caracterizar scaffolds a base de polihidroxibutirato (PHB), apatita e peptídeo osteogênico, osteogenic growth peptide (OGP), para aplicação em reparação óssea. Além disso, avaliar a liberação prolongada do peptídeo incorporado aos scaffolds na forma livre ou incorporado a lipossomas. Os scaffolds de PHB foram confeccionados por prototipagem rápida (PR) empregando a tecnologia Selective Laser Sintering (SLS). Posteriormente, a apatita foi incorporada in situ por meio de ciclos alternados de imersão em soluções de CaCl2 e Na2HPO4, respectivamente. Neste estudo foram selecionadas 2 marcações para o OGP, uma com 5,6-carboxifluoresceína (CF) e outra com triptofano (W), para análise de liberação prolongada. Os peptídeos foram incorporados ao sistema de liberação no momento de seu preparo. A caracterização por espalhamento de luz dos sistemas de liberação desenvolvidos mostrou que os peptídeos marcados com CF foram os melhores desenvolvidos. Portanto estes peptídeos foram adsorvidos nos scaffolds de PHB-CaP. Estudos in vitro foram realizados para avaliar o perfil de liberação do peptídeo OGP-CF do sistema de liberação controlada. A incorporação da apatita às matrizes de PHB foi confirmada por análises de microscopia eletrônica de varredura/ espectroscopia de energia dispersiva (MEV/EDS), espectroscopia na região do infravermelho (FTIR), absorção atômica, a difratometria de raios-X (DRX). Estas análises sugeriram que a principal fase precipitada foi -TCP. O sistema de liberação lipossoma/OGP-CF foi caracterizado pelas análises de dicroísmo circular e espalhamento de luz, que confirmaram a presença do peptídeo nas amostras. Após a análise da liberação, observou-se que o sistema PHB-CaP/OGP-CF obteve ...

Modelagem e simulação numérica de um sistema de refrigeração por absorção utilizando o par H2O-LiBr

The term refrigeration solar refers to any air conditioning system that uses solar energy as a primary energy source. The use of solar radiation for cooling purposes is divided according to their technological possibilities which are distinguished from one another as the way that energy is involved in the cycle, work or heat. The first case is related to vapor compression cycles, in which the work input is provided by the photovoltaic conversion of solar energy into electrical energy. In the second case, an absorption refrigeration cycle is used and the thermal energy collected from the solar radiation is provided at the generator of this cycle.. In this work a system with an absorption cycle using the pair BrLi-water, using solar energy as input is modeled. It is considered a simple refrigeration cycle whose the equations of mass and energy conservation in each component are developed in order to obtain an algebraic equation set and a simulation routine using the EES software. Although the simulation operates under certain specified thermal load it is possible to estimate the necessary areas of heat exchangers and solar collectors

Modelagem e avaliação de um sistema de refrigeração por absorção para residências e instalações de pequeno porte

This work presents a study of the absorption refrigeration system and the modeling and evaluation of two cycles using the binary solutions water-lithium bromide and ammonia-water for an equipment to be used in small size plants like residences. The study and evaluation aims the complete understanding of all parts of the system and the influence of each one of them as well as the spread of the knowledge to raise the use of this type of equipment in all sizes in order to decrease the energetic consumption of plants of all scales and making viable the alternative sources. The study is done in each element of the cycle separately and in some auxiliary equipments required in the operation such as the main power source, the solar collector. The software used for modeling, with emphasis on thermal part, was the EES (Engineering Equation Solver), that permitted the thermal balance calculus and acquisition of the used fluids properties. The results obtained for the equipment shows the system is more complex than the widely used in business, however, it can be viable and represents an alternative to increase the energetic efficiency

Estudo de temperatura de plasma de álcool através de espectroscopia de emissão natural radical C2*

Non-intrusive methods of diagnosis, such as spectral analysis of the radiation emitted by the system, have been used as a viable alternative for determining the temperature of combustion systems. Among them, the determination of temperature by natural emission spectroscopy has the advantage of requiring relatively simple experimental devices. Once Chemiluminescent species are formed directly in the excited state, the collection and recording of radiation emission spectrum is enough to determine the temperature (CARINHANA, 2008). In this study we used the process of making direct comparisons between the experimental spectra obtained in the laboratory from the plasma of alcohol, and the theoretical spectra plotted from a computer program developed at the IEAv. The objective was to establish a fast and reliable method to measure the rotational temperature of the radical C2*. The results showed that the temperature of the plasma, which in turn can be taken as the rotational temperature of the system, is proportional to the pressure. The temperature values ranged from ca. 2300 ~ 2500 K at a pressure of 19 mmHg to 3100 ~ 3500 K for the pressure of 46 mmHg. The temperature values are somewhat smaller when we consider the theoretical spectrum as a Lorentzian curve. The overlap of the spectra was better when using the profile curve, but still were not exactly superimposed. The solution to improve the overlap of the theoretical with the experimental spectra is the use of a curve that has the convolution of two profiles analyzed: Lorentzian and Gaussian. This curve is called the Voigt profile, which will also be implemented by programmers and studied in a next work

Efeitos fotocrômico e termocrômico em ormosils dopados com azobenzenos

The sol-gel process and the wide variety of alkoxides commercially available have facilitated the processing of various Organic-Inorganic Hybrid Materials. In general, the hybrids are excellents matrix to incorporate organic or inorganic dopants that presents photochromic, thermochromic, and halochromic effects and in some cases photorefractive effects. The GPTS-TEOS hybrid matrix when deposited in the form of film is very resistant, adherent, has excellent transparency in visible region and allows to be doped with various azo-dye and metal salts of unusual oxidation states. One of the main characteristics of the azo-dyes when immersed in some hybrid matrix , is the capacity to isomerizes through group Azo (-N = N-) would can be commutated between the Cis (Z) and Trans (E) configurations by means of light or heat. Our goal was through the sol-gel process to prepare hybrid films of GPTS-TEOS doped with azo-dyes Methyl Red and Disperse Red 1, and characterize them optically. The characterizations are performed using techniques of UV / Vis spectroscopy, to identify changes in the absorption band of azo-dyes in the presence of optical pumping, (photochromic effects), in function of temperature (thermochromic effect). These properties are of wide scientific and technological interest because they will contribute to the confection Smart Windows (windows sensible to light), temperature sensors monitored optically and also in the recording of amplitude and phase diffraction gratings

Determinação de temperatura de chamas por espectroscopia de espécies quimioluminescentes

In a combustion process involving fossil fuels, there is the formation of species Chemiluminescent, especially CH*, C2* and OH*, whose spontaneous emission can be used as a diagnostic tool. In the present work, mapping and determination of the rotational temperature of the species CH* produced in flames on a burner fueled by Liquefied Petroleum Gas (LPG) was carried out. This study is part of a project involving the characterization of supersonic combustion in scramjets engines, whose study has been conducted in the hypersonic shock tunnel IEAv laboratories. The technique used was the natural emission spectroscopy, which has as main advantage of being non-intrusive. The rotational temperature determination was made using the Boltzmann method, whose principle is to relate the emission intensity of the species to the temperature by means of spectroscopic constants established.The temperature values were determined from the analysis of electronic bands AX and BX of the radical CH*. In order to confirm the results of flame temperatures obtained by the natural emission technique, was also used the technique of line reversal sodium. The results of both techniques showed that the temperature of the flames investigated is about 2500K a 2700K

Síntese, incorporação e liberação prolongada do tetradecapeptídeo OGP em celulose bacteriana

Este trabalho apresenta o estudo de dois sistemas de liberação prolongada, microemulsão e lipossomas, contendo peptídeo regulatório de fatores de crescimento, “osteogenic growth peptide” OGP, para aplicação em regeneração óssea. A base de adsorção para estes sistemas de liberação foi a celulose bacteriana (CB) produzida pela bactéria Gluconacetobacter xylinus. Foi escolhida devido às suas propriedades físicas e químicas, tais como como alta resistência à corrosão química, bio absorção, biocompatibilidade, porosidade e ainda boa resistência mecânica, o que a torna um biopolímero com grande potencial a ser explorado pela ciência biomédica. Estudos in vitro foram realizados para avaliar o perfil de liberação do peptídeo dos diferentes sistemas de liberação prolongada. O peptídeo OGP foi sintetizado pelo método da fase sólida (estratégia SPFS Fmoc); foi purificado e caracterizado por HPLC, espectrometria de massas e análise de aminoácidos e, em seguida, marcados com 5,6 carboxifluoresceína (CF) para análise por espectroscopia de fluorescência. O peptídeo marcado foi incorporado aos sistemas de liberação no momento do respectivo preparo, foram adsorvidos na CB por um período de 72h, seguido de sua liberação prolongada em sistema fechado de fluxo constante contendo tampão PBS pH 7,4, por um período de 24h. Após a análise da liberação, observou se que o sistema que obteve melhor resultado foi a microemulsão, sendo sua liberação prolongada nas primeiras 6,5 h, liberando 21,5% do valor teórico de peptídeo incorporado, seguido de uma liberação constante a partir desse período. Dessa forma, tem se que a microemulsão pode ser um sistema promissor para liberação prolongada do OGP em processos de regeneração óssea