277 resultados para Painéis absorvedores
Resumo:
O presente trabalho tem como objectivo principal a realização de um estudo do efeito do ganho das antenas nas perdas de percurso de uma ligação na banda de frequência ISM (Insdustrial Scientific and Medical) nos 2,4 GHz. Para tal, foram utilizadas 14 antenas de 7 tipos diferentes (2 monopolo, 2 colineares, 2 grelhas, 2 Yagi, 2 painéis, 2 parabólicas e 2 helicoidais) com ganhos a variar desde os 1,3 a 23 dBi. Inicialmente, obtiveram-se os parâmetros fundamentais das antenas utilizadas, nomeadamente o diagrama de radiação e o ganho. Desenvolveu-se um sistema, que permite a medição do diagrama de radiação de forma automática através de um motor passo a passo. Uma aplicação desenvolvida em ambiente Matlab realiza o controlo do motor e desenha o respectivo diagrama em tempo real. Para a realização das medições da propagação do sinal desenvolveu-se um sistema que interliga a antena receptora a um computador portátil através de um analisador de espectros. À medida que as medições são efectuadas, a atenuação do sinal em função da distância é determinada e apresentada graficamente no computador sendo, ainda, representada a atenuação esperada no espaço livre. Para isto, implementou-se uma aplicação em ambiente Matlab que faz o tratamento e representação dos dados. Tendo-se conhecimento dos parâmetros das antenas, e com o sistema de medição implementado, passou-se às medições da propagação do sinal em diferentes meios, tais como, meio sem obstáculos, meio urbano, meio florestal caracterizado por troncos no percurso de propagação e meio florestal caracterizado por folhagem no percurso de propagação. Em cada meio foram efectuadas medições para 37 combinações de antenas, com ganhos conjuntos a variar desde os 2,6 até o 46 dBi. As medições foram efectuadas com a colocação da antena emissora numa posição fixa e com o afastamento da antena receptora em intervalos de 5 metros, até os 150 metros, seguindo a linha de máxima radiação entre ambas as antenas. Ainda, para os meios sem obstáculos e florestais, foram efectuadas medições para dois ângulos em relação à linha indicada, sendo estes de 30° e 330°, respectivamente. Com base nos resultados obtidos, verificou-se um aumento da atenuação à medida que se passou para meios mais obstruídos, sendo que, para o meio sem obstáculos a atenuação aproxima-se da curva do espaço livre. No meio urbano observou-se que a atenuação aumentou ligeiramente. No entanto, esta não é muito significativa quando comparada com a atenuação no espaço livre. Por último, notou-se um grande aumento da atenuação nos meios florestais, ao nível dos troncos e da vegetação, sendo superior para esta última. Relativamente às antenas, verificou-se que existe um aumento da atenuação na medida que o ganho destas aumenta, sendo mais visível para meios com maior obstrução (florestais). Para a situação em que as antenas encontram-se com desvios de 30° e 330°, verificou-se que este aumento é mais significativo para as antenas directivas (ganhos superiores).
Resumo:
As energias renováveis têm-se tornado uma alternativa viável e complementar aos combustíveis fósseis, pelo facto de serem energias virtualmente inesgotáveis, limpas e economicamente vantajosas. Um dos principais problemas associados às fontes de energia renováveis é a sua intermitência. Este problema impossibilita o controlo da produção de energia e reflete-se na qualidade da energia elétrica. Em sistemas de microprodução de energia, este problema pode ser atenuado com a inclusão de sistemas de armazenamento intermédio que possibilitam o armazenamento do excedente extraído das fontes renováveis, podendo ser utilizado como recurso auxiliar na alimentação de cargas ou como meio de estabilização e otimização do desempenho da Rede Elétrica de Energia (REE), evitando variações bruscas na energia transferida para a mesma. Os sistemas de microprodução com armazenamento intermédio podem ser considerados fundamentais na implementação do conceito de Rede Inteligente de Energia (RIE), visto serem sistemas de energia descentralizados que permitem uma melhor gestão da energia elétrica e uma consequente redução de custos. No presente trabalho desenvolveu-se um sistema de microprodução de energia renovável compatível com as fontes renováveis fotovoltaica e eólica, possuindo um banco de baterias como sistema de armazenamento intermédio. A construção deste sistema teve como principal objetivo seguir as referências de potência impostas pela RIE, independentemente das condições meteorológicas, com recurso à energia armazenada nas baterias, evitando a introdução de perturbações na REE ao nível da tensão e da frequência. Estudou-se o comportamento do sistema na ocorrência de variações bruscas da fonte renovável, perturbações na tensão da REE e introdução de cargas lineares e não lineares. Foi desenvolvido um protótipo experimental com painéis fotovoltaicos, no qual foram registados os valores de alguns parâmetros da qualidade da energia elétrica. Obteve-se uma resposta de aproximadamente 25 μs por parte das baterias para cada Watt de potência requisitado pela RIE.
Resumo:
As energias renováveis têm sido cada vez mais a alternativa encontrada para substituir o uso dos combustíveis fósseis na produção de energia. Neste contexto, surge a oportunidade de realizar um estudo sobre o “Potencial Solar dos Edifícios Públicos da RAM” como objeto de trabalho desta tese de Mestrado em Engenharia de Telecomunicações e Redes de Energia (METRE). Pretende-se que este estudo sirva para impulsionar o investimento nesta área por parte dos decisores regionais, dotando-os de um estudo do potencial de produção de energia solar nos edifícios públicos da RAM. Através de estudos desenvolvidos pelo LREC, ERAMAC - Maximização da Penetração das Energias Renováveis e Utilização Racional da Energia nas Ilhas da Macaronésia, e do Joint Research Centre (JRC), contendo dados do Instituto Meteorológico (IM), da Agência Regional da Energia e Ambiente da Região Autónoma da Madeira (AREAM), do LREC e do World Meteorological Organization (WMO), avaliou-se a radiação solar na RAM, através de tabelas e mapas de radiação solar, contendo a radiação solar global diária média mensal e média anual. Posteriormente fez-se uma análise da oferta do mercado atual de painéis fotovoltaicos (PV) em termos de eficiência, distinguindo as várias gerações de tipos de painéis introduzidos no mercado. Foram realizadas várias pesquisas em diversas áreas de energias renováveis e tecnologias existentes para, posteriormente, se realizar uma seleção e introspeção da informação essencial ao tema de forma a definir-se a fase de desenvolvimento desta tese. Com o auxílio da ferramenta computacional Quantum GIS, foram identificados alguns edifícios públicos com a dimensão e exposição solar apropriada para a colocação de sistemas solares nos mesmos. De seguida, foi realizado uma análise do preço pago/recebido por kWh consumido/produzido e cinco casos de estudos, nos quais foram focados os diferentes impactos de várias tecnologias solares nos prédios públicos da RAM, avaliando financeiramente os custos e retorno do investimento na aplicação destas tecnologias em cada caso, através das ferramentas computacionais, SolTerm e RETScreen. Finalmente retirou-se as respetivas conclusões acerca das opções tomadas, por exemplo, na escolha das tecnologias solares a implementar, os seus custos, o retorno do investimento, preços dos painéis fotovoltaicos, entre outros.
Resumo:
Este projeto descreve a criação de um sistema de gestão de rega aplicado à agricultura, baseado numa rede de sensores sem fios (RSSF), e apresenta a implementação de um sistema para captação de energia, nomeadamente, um gerador hídrico segundo os modelos de pás do tipo hélice, para além da utilização de painéis solares. O sistema de gestão de rega consiste num protótipo de monitorização que permite o controlo dos atuadores (válvulas), de modo a ligar e desligar os canais de rega conectados a um reservatório de água, com base na informação monitorizada pelos nós sensores do solo. Assim, o sistema desenvolvido otimiza a quantidade de água aplicada ao cultivo, oferecendo as condições ideais para o correto desenvolvimento dos mesmos. Inicialmente realizou-se um estudo sobre os tipos de sensores utilizados no setor agricultura. Posteriormente verificou-se o funcionamento das RSSF, baseado no protocolo ZigBee, de modo a compreender o envio dos dados dos nós sensores para a estação base. A otimização do consumo energético das RSSF foi outro dos desafios tidos em consideração neste projeto, uma vez que, atualmente, a alimentação dos nós sensores em ambientes exteriores, na sua maioria, é realizada por baterias, o que limita o nível de longevidade do sistema. Desta forma, foi necessário desenvolver um sistema que possibilite a captação da energia gerada pelo meio envolvente (ex. energia hídrica, e solar), capaz de prolongar a longevidade dos nós sensores a nível energético. O sistema desenvolvido contém uma estação meteorológica alimentada por um painel solar fotovoltaico, dois nós sensores de monitorização dos parâmetros do solo, também alimentados por painéis solares fotovoltaicos, um nó atuador alimentado por um gerador hídrico e uma aplicação web para a visualização dos dados em tempo real. O protótipo referido foi instalado em ambiente exterior, com características semelhantes às de interesse, de modo a ter em consideração os efeitos do ambiente no sistema, nomeadamente, a proteção do equipamento em situações de ocorrência de intempéries.
Resumo:
This Masters Degree dissertation seeks to make a comparative study of internal air temperature data, simulated through the thermal computer application DesignBuilder 1.2, and data registered in loco through HOBO® Temp Data Logger, in a Social Housing Prototype (HIS), located at the Central Campus of the Federal University of Rio Grande do Norte UFRN. The prototype was designed and built seeking strategies of thermal comfort recommended for the local climate where the study was carried out, and built with panels of cellular concrete by Construtora DoisA, a collaborator of research project REPESC Rede de Pesquisa em Eficiência Energética de Sistemas Construtivos (Research Network on Energy Efficiency of Construction Systems), an integral part of Habitare program. The methodology employed carefully examined the problem, reviewed the bibliography, analyzing the major aspects related to computer simulations for thermal performance of buildings, such as climate characterization of the region under study and users thermal comfort demands. The DesignBuilder 1.2 computer application was used as a simulation tool, and theoretical alterations were carried out in the prototype, then they were compared with the parameters of thermal comfort adopted, based on the area s current technical literature. Analyses of the comparative studies were performed through graphical outputs for a better understanding of air temperature amplitudes and thermal comfort conditions. The data used for the characterization of external air temperature were obtained from the Test Reference Year (TRY), defined for the study area (Natal-RN). Thus the author also performed comparative studies for TRY data registered in the years 2006, 2007 and 2008, at weather station Davis Precision Station, located at the Instituto Nacional de Pesquisas Espaciais INPE-CRN (National Institute of Space Research), in a neighboring area of UFRN s Central Campus. The conclusions observed from the comparative studies performed among computer simulations, and the local records obtained from the studied prototype, point out that the simulations performed in naturally ventilated buildings is quite a complex task, due to the applications limitations, mainly owed to the complexity of air flow phenomena, the influence of comfort conditions in the surrounding areas and climate records. Lastly, regarding the use of the application DesignBuilder 1.2 in the present study, one may conclude that it is a good tool for computer simulations. However, it needs some adjustments to improve reliability in its use. There is a need for continued research, considering the dedication of users to the prototype, as well as the thermal charges of the equipment, in order to check sensitivity
Resumo:
Ta-Cu bulk composites combine high mechanical resistance of the Ta with high electrical and thermal conductivity of the Cu. These are important characteristics to electrical contacts, microwave absorber and heat skinks. However, the low wettability of Ta under Cu liquid and insolubility mutual these elements come hard sintering this composite. High-energy milling (HEM) produces composite powders with high homogeneity and refines the grain size. This work focus to study Ta-20wt%Cu composite powders prepared by mechanical mixture and HEM with two different conditions of milling in a planetary ball mill and then their sintering using hydrogen plasma furnace and a resistive vacuum furnace. After milling, the powders were pressed in a steel dye at a pressure of 200 MPa. The cylindrical samples pressed were sintered by resistive vacuum furnace at 10-4torr with a sintering temperature at 1100ºC / 60 minutes and with heat rate at 10ºC/min and were sintered by plasma furnace with sintering temperatures at 550, 660 and 800ºC without isotherm under hydrogen atmosphere with heat rate at 80ºC/min. The characterizations of the powders produced were analyzed by scanning electron microscopy (SEM), x-ray diffraction (XRD) and laser granulometry. After the sintering the samples were analyzed by SEM, XRD and density and mass loss tests. The results had shown that to high intense milling condition produced composite particles with shorter milling time and amorphization of both phases after 50 hours of milling. The composite particles can produce denser structure than mixed powders, if heated above the Cu melting point. After the Cu to arrive in the melting point, liquid copper leaves the composite particles and fills the pores
Resumo:
In this work, was studied the formation of a composite of the refractory metal niobium with copper, through the process of high-energy milling and liquid phase sintering. The HEM can be used to synthesize composite powders with high homogeneity and fine size particle distribution. It may also produce the solid solubility in immiscible systems such as Nb-Cu, or extend the solubility of systems with limited solubility. Therefore, in the immiscible system Cu-Nb, the high-energy milling was successfully used to obtain the composite powder particles. Initially, the formation of composite particles during the HEM and the effect of preparation technique on the microstructure of the material was evaluated. Four loads of Nb and Cu powders containing 20%wt Cu were synthesized by MAE in a planetary type ball mill under different periods of grinding. The influence of grinding time on the metal particles is evaluated during the process by the withdrawal of samples at intermediate times of milling. After compaction under different forces, the samples were sintered in a vacuum furnace. The liquid phase sintering of these samples prepared by HEM produced a homogeneous and fine grained. The composite particles forming the sintered samples are the addition of a hard phase (Nb) with a high melting point, and a ductile phase (Cu) with low melting point and high thermal and electrical conductivities. Based on these properties, the Nb-Cu system is a potential material for many applications, such as electrical contacts, welding electrodes, coils for generating high magnetic fields, heat sinks and microwave absorbers, which are coupled to electronic devices. The characterization techniques used in this study, were laser granulometry, used to evaluate the homogeneity and particle size, and the X-ray diffraction, in the phase identification and to analyze the crystalline structure of the powders during milling. The morphology and dispersion of the phases in the composite powder particles, as well the microstructures of the sintered samples, were observed by scanning electron microscopy (SEM). Subsequently, the sintered samples are evaluated for density and densification. And finally, they were characterized by techniques of measuring the electrical conductivity and microhardness, whose properties are analyzed as a function of the parameters for obtaining the composite
Resumo:
This work addresses the production of lightweight concrete building elements, such as plates, prefabricated slabs for pre-molded and panels of fencing, presenting a singular concrete: the Lightweight Concrete, with special properties such low density and good strength, by means of the joint use of industrial waste of thermosetting unsaturated polyesters and biodegradable foaming agent, named Polymeric Lightweight Concrete. This study covered various features of the materials used in the composition of the Polymeric Lightweight Concrete, using a planning of factorial design 23, aiming at studying of the strength, production, dosage processes, characterization of mechanical properties and microstructural analysis of the transition zone between the light artificial aggregate and the matrix of cement. The results of the mechanical strength tests were analyzed using a computational statistics tool (Statistica software) to understand the behavior and obtain the ideal quantity of each material used in the formula of the Polymeric Lightweight Concrete. The definition of the ideal formula has the purpose of obtaining a material with the lowest possible dry density and resistance to compression in accordance with NBR 12.646/92 (≥ 2.5 MPa after 28 days). In the microstructural characterization by scanning electron microscopy it was observed an influence of the materials in the process of cement hydration, showing good interaction between the wrinkled face of the residue of unsaturated polyesters thermosetting and putty and, consequently, the final strength. The attaining of an ideal formula, given the Brazilian standards, the experimental results obtained in the characterization and comparison of these results with conventional materials, confirmed that the developed Polymeric Lightweight Concrete is suitable for the production of building elements that are advantageous for construction
Resumo:
The use of gypsum, one of the oldest building materials for the construction industry in the country has been experiencing a significant and steady growth, due to its low cost and some of its properties that confer comparative advantage over other binder materials. Its use comprises various applications including the coating of walls and the production of internal seals and linings. Moreover, the fibers are being increasingly incorporated into arrays fragile in an attempt to improve the properties of the composite by reducing the number of cracks, the opening of the same and its propagation velocity. Other properties, depending on the function of the component material or construction, among these thermal and acoustic performances, are of great importance in the context of buildings and could be improved, that is, having better performance with this embodiment. Conduct a comparative study of physico-mechanical, thermal and acoustic composite gypsum incorporating dry coconut fiber, in the form of blanket, constituted the main objective of this work. Improving the thermal and acoustic performances of precast gypsum, used for lining and internal vertical fences of buildings, was the purpose of development of these composites. To evaluate the effect of fiber content on the properties of the composites were used to manufacture the composite layer with different thicknesses. The composites were fabricated in the form of plates with dimensions of 500x500x24mm. To facilitate the comparative study of the properties were also made with material gypsum boards only. We then determined the physico-mechanical, thermal and acoustical plaster and composites. The results indicated that the composites were significant gains in relation to thermal performance and also acoustic, in certain frequency range, increasing the thickness of the blanket. Concerning other physical-mechanical properties, the results showed that although the compressive strength was lower than for the composite did not occur after a fracture catastrophic failure. The same trend was observed with regard to resistance to bending, since the composites have not suffered sudden rupture and still continued after the load supporting point of maximum load
Resumo:
The rural electrification is characterized by geographical dispersion of the population, low consumption, high investment by consumers and high cost. Moreover, solar radiation constitutes an inexhaustible source of energy and in its conversion into electricity photovoltaic panels are used. In this study, equations were adjusted to field conditions presented by the manufacturer for current and power of small photovoltaic systems. The mathematical analysis was performed on the photovoltaic rural system I- 100 from ISOFOTON, with power 300 Wp, located at the Experimental Farm Lageado of FCA/UNESP. For the development of such equations, the circuitry of photovoltaic cells has been studied to apply iterative numerical methods for the determination of electrical parameters and possible errors in the appropriate equations in the literature to reality. Therefore, a simulation of a photovoltaic panel was proposed through mathematical equations that were adjusted according to the data of local radiation. The results have presented equations that provide real answers to the user and may assist in the design of these systems, once calculated that the maximum power limit ensures a supply of energy generated. This real sizing helps establishing the possible applications of solar energy to the rural producer and informing the real possibilities of generating electricity from the sun.
Resumo:
The bidimensional periodic structures called frequency selective surfaces have been well investigated because of their filtering properties. Similar to the filters that work at the traditional radiofrequency band, such structures can behave as band-stop or pass-band filters, depending on the elements of the array (patch or aperture, respectively) and can be used for a variety of applications, such as: radomes, dichroic reflectors, waveguide filters, artificial magnetic conductors, microwave absorbers etc. To provide high-performance filtering properties at microwave bands, electromagnetic engineers have investigated various types of periodic structures: reconfigurable frequency selective screens, multilayered selective filters, as well as periodic arrays printed on anisotropic dielectric substrates and composed by fractal elements. In general, there is no closed form solution directly from a given desired frequency response to a corresponding device; thus, the analysis of its scattering characteristics requires the application of rigorous full-wave techniques. Besides that, due to the computational complexity of using a full-wave simulator to evaluate the frequency selective surface scattering variables, many electromagnetic engineers still use trial-and-error process until to achieve a given design criterion. As this procedure is very laborious and human dependent, optimization techniques are required to design practical periodic structures with desired filter specifications. Some authors have been employed neural networks and natural optimization algorithms, such as the genetic algorithms and the particle swarm optimization for the frequency selective surface design and optimization. This work has as objective the accomplishment of a rigorous study about the electromagnetic behavior of the periodic structures, enabling the design of efficient devices applied to microwave band. For this, artificial neural networks are used together with natural optimization techniques, allowing the accurate and efficient investigation of various types of frequency selective surfaces, in a simple and fast manner, becoming a powerful tool for the design and optimization of such structures
Resumo:
In this work, the transmission line method is explored on the study of the propagation phenomenon in nonhomogeneous walls with finite thickness. It is evaluated the efficiency and applicability of the method, considering materials like gypsum, wood and brick, found in the composition of the structures of walls in question. The results obtained in this work are compared to those available in the literature, for several particular cases. A good agreement is observed, showing that the performed analysis is accurate and efficient in modeling, for instance, the wave propagation through building walls and integrated circuit layers in mobile communication and radar system applications. Later, simulations of resistive sheets devices such as Salisbury screens and Jaumann absorbers and of transmission lines made of metal-insulator-semiconductor (MIS) are made. Thereafter, it is described a study on frequency surface selective structures (FSS). It is proposed the development of devices and microwave integrated circuits (MIC) of such structures, for the accomplishment of experiments. Finally, future works are suggested, for instance, on the development of reflectarrays, frequency selective surfaces with dissimilar elements, and coupled frequency selective surfaces with elements located on different layers
Resumo:
A solar alternative system for water heating is presented. It work on a thermosiphon, consisting of one or two alternative collectors and a water storage tank also alternative, whose main purpose is to socialize the use of energy mainly to be used by people of low income. The collectors were built from the use of pets bottles, cans of beer and soft drinks and tubes of PVC, ½ " and the thermal reservoirs from a drum of polyethylene used for storage of water and garbage placed inside cylinder of fiber glass and EPS ground between the two surfaces. Such collectors are formed by three elements: pet bottles, cans and tubes absorbers. The heating units, which form the collector contains inside the cans that can be closed, in original form or in the form of plate. The collectors have an absorber grid formed by eight absorbers PVC tube, connected through connections at T of the same material and diameter. It will be presented data of the thermal parameters which demonstrate the efficiency of the heating system proposed. Relative aspects will be boarded also the susceptibility the thermal degradation and for UV for the PVC tubes. It will be demonstrated that this alternative heating system, which has as its main feature low cost, presents thermal, economic and materials viabilities
Resumo:
It presents a solar collector to be used in a system for heating water for bathing, whose main characteristics are its low cost and easy manufacturing and assembly. The absorbing surface of the collector is formed by an aluminum plate with eight flaps where they lodge PVC pipes. The catchment area of solar radiation corresponds to 1.3 meters. The collector box was made of wood, is covered by transparent glass and thermal insulation of tire chips and expanded polystyrene (EPS). Absorber tubes were connected in parallel through the use of PVC fittings and fixed to the plate by the use of metal poles and rivets. The entire absorber received paint flat black for better absorption of sunlight. The system worked on a thermosiphon assembly and absorber of the collector has been tested in two configurations: with the tubes facing up, directly exposed to the impact of sunlight and facing down, exchanging heat with the plate by conduction. It was determined the most efficient configuration for the correct purpose. The solar collector was connected to a thermal reservoir, also alternative, low-cost forming the system of solar water heating. We evaluated thermal parameters that proved the viability of the heating system studied
Resumo:
It presents a solar collector to be used in a system for heating water for bathing, whose main characteristics are low cost and easy manufacturing and assembly. The system operates under natural convection or thermosiphon. The absorbing surface of the collector is formed by twelve PVC pipes of 25 mm outside diameter connected in parallel via connections in T of the same material. The tubes were covered with absorbing fins made with recycled aluminum cans. We studied eight settings between absorber plate, thermal insulating EPS boards and thermal reservoirs 150 and 200 liters. It was determined the most efficient configuration for the correct purpose. We evaluated thermal parameters that proved the viability of the heating system studied
