505 resultados para eficiência de absorção
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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
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In wood processing industries, which use electrical equipment in the production process, in most cases these are badly scaled or operate under inadequate conditions, resulting directly in industrial energy efficiency, which proves important because besides having technological innovation, also with practices and policies, aims to decrease power consumption. So in a wiring project should take into account the variables that influence energy efficiency. Thus this work has been reviewed and subsequently calculated some of these variables, such as active power, power factor and demand for the entire industry (global) and also for specific equipment, the chipper. The network analysis was performed in a wood processing industry in the city of Taquarivaí - SP, and evaluated these variables with a network analyzer and also by analysis on energy bills, which were found in both analysis levels below those found in literature. These factors are due to poor design, improper use, storage of equipment or even by characteristic of the production process, ie, the equipment running on empty because of the volatility of production
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O estudo foi realizado numa área degradada pertencente ao campus da UNESP em Rio Claro, e teve como objetivo avaliar a eficiência do método de nucleação para recuperação de áreas degradadas do tipo “transposição de galharia” na atração de fauna. As pilhas de galhos podem funcionar como abrigos artificiais, atraindo potenciais dispersores de sementes secundários, o que potencialmente abreviaria o processo de regeneração de um ambiente degradado. O estudo foi feito através do levantamento de pequenos mamíferos por armadilhas de interceptação e queda em quatro parcelas de 2500 m², sendo duas delas com o tratamento (pilhas de galhos), e duas funcionando como controle, e o resultado esperado seria uma maior quantidade de indivíduos capturados e de gêneros taxonômicos nas parcelas com o tratamento. Entretanto, as quantidades totais de indivíduos capturados no bloco das parcelas com tratamento e no bloco das parcelas controle foram, segundo o teste de Mann-Whitman, estatisticamente idênticos. Também a quantidade de gêneros taxonômicos capturados foi igual nos dois blocos. Desta forma, concluímos que o método “transposição de galharia” foi ineficiente neste estudo, da forma como foi empregado, não contribuindo para um aumento na fauna de pequenos roedores e marsupiais. O método pode ter fracassado devido a pequena quantidade de pilhas de galhos utilizados para o tamanho da área, como também pelo recobrimento da área por uma grande quantidade de gramíneas, que podem ter funcionado por si só como abrigo para os animais capturados, além de poderinibir a entrada de outros gêneros de pequenos mamíferos não-voadores. Sugerimos portanto, para o método ser mais eficiente, a colocação de uma maior quantidade de pilhas de galhos do que a utilizada no presente estudo, e elas devem ser maiores. Para ecossistemas que apresentam gramíneas densas e altas... (Resumo completo, clicar acesso eletrônico abaixo)
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In this work were studied associations of ZnO with the natural products caffeic and feluric acids. Two preparation methods were used, that is, the sol-gel and a reflux procedure. In the sol-gel method, ZnO is produced by the basics hydrolysis of precursors in the presence of the organic filters (caffeic and feluric acids), which results in 30 nm (or less) ZnO particles with the organic filters (in dissociated form) bonded to the surface of ZnO. In the reflux method, a dispersion of ZnO in a water/ethanol mixture was kept under reflux (50oC/4h) in the presence of the organic acids. The ZnO particles used in the reflux method have a higher diameter than sol-gel ZnO particles, but the prepared associated product ZnO/Organic acids were similar. Despite of the difference in relation to crystallinity between the products, the preparation methods resulted in analogous associations with respect to the interaction of the organic filters with the ZnO surface. The caffeic/ZnO associations presented low photostability, which lead to the degradation of the organic filter. The other associations (feluric acid/ZnO) presented satisfactory results. The FT-IR spectroscopy confirmed the formation of the association, and the nature of the bond formed compared with the Zn-O bond in Zn2+/Felutic acid complexes. The isolated organic and inorganic filters, along with the associations were analyzed by diffuse reflectance spectroscopy and Uv-vis spectroscopy. The absorption edges and the critical wavelengths were analyzed and the effects of Zn-O bonds in feluric acid/ZnO associations described as a function of the relative position of the π/π* system of the organic filter. Finally the performance of the hybrid filters were investigated in terms of the absorption of UVA and UVB radiations, with the UVA/UVB ratio, an efficiency parameter largely used in the description of solar filters, sunscreen and suncare products
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Nowadays, there is a need for improvements in production processes for companies to be competitive, as it is an obligation of businesses, it is necessary to know about the production processes accurately, to learn where improvements in work and thus have large impacts results. The calculation of efficiency of production lines is necessary to know as much about the progress of production and for product costing, when the measurement is not suitable, it generates negative impacts on the company. Due to the impact generated by this parameter, the graduation work carry out the study of change in a method that does not include all requirements necessary, by another method known as Overall Equipment Effectiveness, and according to studies, covering various parameters, showing become more consistent. These values are contained in the pattern production which is used to fund the product, thereby also occur financial impacts. Thus the work will study the change along with the analysis of impacts caused by the change
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This work contemplates an opportunities study of the rational use of energy in an industrial unity from the demand analysis and electrical energy consumption. Through a guide of energy analysis it was described how to find the main problems that create energy wastes in an industry, showing the ways so the production processes avoid such wastes and start to use energy in a more sensible e efficient way. It was also studied, the technical e economical viability of possible interventions to be implemented in terms of energy conservation and of possible demand supply alternatives
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This work aims to verify and compare the efficiency of heat exchangers used in the thermal systems laboratory at Faculdade de Engenharia do Campus de Guaratinguetá - UNESP. Basically, it has been studied two types of heat exchangers: plate type, operating in parallel flow and counter-flow, shell and tube type and also operating in parallel flow and counter flow. Initially it has been presented the didactic equipment and procedures for use of these heat exchangers in the proposed experiments. With the results obtained from the experiments, comparisons were made in order to define the behavior of the heat exchangers regarding some variables. In the study, one comes to the conclusion that the results from shell and tube type of heat exchanger, used in the thermal systems lab, are superior in all conditions analyzed
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The aim of this work is to make a qualitatively and ecologically evaluation of a compact cogeneration system that operates with synthesis gas obtained from a gasifier. Using the Eucalyptus Biomass as fuel, that passes through a wood gasifier (Drowndraft type) and supply the internal combustion engine. The compact cogeneration system is composed of two heat exchangers, an energy generator connected to an internal combustion engine and an absorption refrigeration system. The complete system is installed in the laboratory from the Energy Department at the University of Guaratinguetá. By the analysis related to the First and Second Thermodynamic Laws applied in this system, was possible to identify the mass flows in each point, energetic efficiency, irreversibility and exergetic efficiency. The components that have the biggest irreversibilities are the gasifier, followed by the internal combustion engine, which should be focused in future improvements. The system efficiency in energetic basis is 51,84% and in exergetic basis is 22,78%. Using the ecologic efficiency methodology was possible to identify the emissions rates, the pollution indicator associated to the combustion of the synthesis gas in the internal combustion engine. The ecologic efficiency considering the energectic analysis is 91,73%, while considering the exergetic analysis, 83,65%. It is concluded that the use of the synthesis gas in a compact cogeneration system is viable from the technical and ecological point of view, making possible to generate energy for isolated communities and promoting the decentralized electricity generation
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The use of refrigeration and air conditioning systems is of fundamental importance when it comes to air-conditioning of environments. Also important is the use of electricity for equipments’ operation related to these systems. Due to high cost of charging for this type of energy, factors economy and efficiency occupy key roles among design parameters of a system. One of the ways to get this economy is the use of a technique called thermal storage, or cold storage, which intends to move the required loads during peak time and also their equalizing, so that the energy is transferred from the peak time to non-peak time, thereby reducing the cost of energy consumed. Cold can be stored in the form of ice or ice water. This work aims to perform a technical-economic analysis of a mall located in Vale do Paraíba checking the feasibility of deploying a thermal storage system to achieve an economy in the cost of the energy used by the establishment. Through the parameters measured by the concessionaire of energy we can get the values of energy demand and power consumed, which will serve as basis for calculation for the study. The results obtained allow the development of two alternative proposals to the current configuration, one chosen by the criteria and results presented by technical-economic and energy analysis
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In civil engineering, a structure is the whole sustainment of a construction and, thus, it is important that it remains intact throughout its lifetime. An engineering construction must last for decades without losing its functionality. However its purpose may be altered and several times the original structure does not meet the new needs of use. Still, in new buildings, the functionality is altered due to possible flaws in execution and the structure, invariably does not reach the desired solicitation needs. In cases like this, the commonly adopted solutions are, basically, the demolishment followed by the reconstruction of the desired mold or the structural reinforcement. This second option, for long years, has not been put to practice due to certain factors such as the high costs for its implantation, use of inadequate reinforcement execution techniques, and the culture of people involved in the area regarding its use and, in this case, the option would always be the reconstruction. Thoughtout the years, some techniques were developed to allow the execution of structural reinforcements with low costs and in efficient ways. An interesting, fast, efficient and economical technique is the structural reinforcement through metal sheets put together with epoxy resin that can be applied in beams, slabs and pillars. In the present work the different behavior of beams reinforced with this technique. Steel is a very recommended material for these reinforcements due to its characteristics related to traction, compression and the effectiveness of the technique related to its cost. For the attachment the epoxy resin is recommended, since it allows the joining of two materials, in this case, steel and concrete. The efficiency of this union is so considerably high that it rarely produces any flaws in adherence and, normally, when it happens it is due to problems in the execution process, not in the union of materials
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This work was developed in order to reduce the discrepancy found between the stock data of an item in the system and the amount found physically in stock in the company presented on this study case. Therefore, this paper makes a study on system of information that can assist in the collection, control and manipulation of data regarding the company's stock. It is very important to do the inventory management, so we can control the level of this sub-product to meet sales orders and production. In the study discussed below, we used the Six Sigma methodology to identify points that had flaws in the process and thus improve their work where the results show grater process control and provide a reliable database to the point where no further problems of lack of components in stock
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O presente trabalho foi elaborado e realizado a fim de se demonstrar a importância da lavagem das mãos no cotidiano, uma vez que mãos humanas podem ser consideradas fonte de diversos agentes etiológicos de doenças que podem comprometer a saúde principalmente de pacientes debilitados. Para tanto, foram aplicados testes de sensibilidade a sabonetes utilizando-se métodos normatizados e validados pelo CLSI (Clinical and Laboratory Standartds Institute) e, por fim, foi verificado o efeito dos mesmos sobre biofilmes formados a partir de espécies e cepas fúngicas conseguidas por meio de lavagens das mãos de voluntários. As amostras utilizadas foram sabonetes em barra adquiridos do comércio, um de formulação bactericida (com adição de extrato de própolis) e outro de formulação comum. Foram realizadas lavagens com os sabonetes-amostra e água destilada, dentro de fluxo laminar, onde foi possível recolher a água usada no enxágüe. A partir do plaqueamento (em meio Sabouraud-dextrose com cloranfenicol 0,05%) das mãos voluntárias sem assepsia prévia, da água de lavagem e das mãos lavadas foram obtidas culturas fúngicas. Essas culturas foram selecionadas de acordo com a viabilidade de isolamento, e então foi feita a identificação das espécies. Através da triagem pelo método de identificação por ChromagarTM Candida, foi possível identificar que duas colônias obtidas das lavagens das mãos foram identificadas como C. krusei e C. albicans. C. albicans ainda pôde ser confirmada... (Resumo completo, clicar acesso eletrônico abaixo)
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One of society concerns are preserving the environment and the growing energy demand. These two issues are in conflict since most of the energy used today in some way harms the environment. Then is essential to develop and implement ways to clean and renewable energy. In this way, solar energy stands out as a source of clean energy, renewable, abundant and acessible. Solar energy can be harnessed by photovoltaic cells or by solar collectors. The aim of this article is analysethe yield of the solar heather assembled with hydraulic conductive and plastic bottles using three different materials for hydraulic conductors, in order to compare these efficiences and analyze material which has the best cost-benefit in this type of application. The materials analyzed in this study were copper, aluminum and PVC. For this analysis were assembled three alike solar heaters using each one of these materials, and were done several series of measurements of the temperature water output to each heat with flow between 10 and 30 liters per hour. With these data we can analyze the yield and the performance of copper, aluminum and PVC in this application. So we can conclude that aluminum has a higher efficiency, followed by PVC, and the copper had the lowest efficiency. This behavior kept for all values of flow rates examined
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Ao administrar um fármaco, devem ser considerados fatores como a forma farmacêutica apropriada, a via de administração com maior eficiência e o que será mais bem aceita pelo paciente. Formas farmacêuticas sólidas (FFS), tais como comprimidos, representam a principal escolha, pois são fáceis de preparar, armazenar, transportar e são bem aceitas pelos pacientes. Porém, a absorção dos fármacos administrados em comprimidos depende do processo de desintegração, ou seja, um processo tempo-dependente que ocorre sob a ação de um desintegrante que promove a fragmentação da forma farmacêutica em partículas passíveis de serem dissolvidas e absorvidas. Para uma liberação efetiva do ativo, uns dos critérios relacionados à formulação como a escolha dos excipientes e o tipo de revestimento devem ser considerados. O revestimento com polímeros é utilizado para melhorar a estabilidade do fármaco, mascarar sabor ou para promover a liberação em locais específicos de acordo com a variação do pH. A técnica considerada como “padrão ouro” para monitorar FFS no trato gastrintestinal do homem é a cintilografia, entretanto, métodos alternativos com base na detecção de campo magnético merecem destaque. A técnica de Biosusceptometria de Corrente Alternada (BAC) tem evoluído, apresentando como vantagem ser um método não-invasivo e livre de radiação ionizante. A BAC utiliza bobinas de indução para registrar a variação temporal do fluxo magnético a partir da resposta de um material magnético ingerido, aplicando-se um campo magnético alternado no meio biológico. O objetivo deste estudo é empregar a BAC para avaliar in vitro a influência de três diferentes polímeros de revestimento em diversos parâmetros farmacotécnicos e no processo de desintegração de comprimidos
