Global ETD Search

61	Exploring the Concept of a Deep Space Solar-Powered Small Spacecraft Crowley, Kian Guillaume 01 June 2018 (has links) (PDF) New Horizons, Voyager 1 & 2, and Pioneer 10 & 11 are the only spacecraft to ever venture past Pluto and provide information about space at those large distances. These spacecraft were very expensive and primarily designed to study planets during gravitational assist maneuvers. They were not designed to explore space past Pluto and their study of this environment is at best a secondary mission. These spacecraft rely on radioisotope thermoelectric generators (RTGs) to provide power, an expensive yet necessary approach to generating sufficient power. With Cubesats graduating to interplanetary capabilities, such as the Mars-bound MarCO spacecraft, matching the modest payload requirements to study the outer Solar System (OSS) with the capabilities of low-power nano-satellites may enable much more affordable access to deep space. This paper explores a design concept for a low-cost, small spacecraft, designed to study the OSS and satisfy mission requirements with solar power. The general spacecraft design incorporates a parabolic reflector that acts as both a solar concentrator and a high gain antenna. This paper explores a working design concept for a small spacecraft to operate up to 100 astronomical units (AU) from the sun. Deployable reflector designs, thermal and radiation environments, communications and power requirements, solar system escape trajectory options, and scientific payload requirements are detailed, and a working system is proposed that can fulfill mission requirements with expected near-future innovations in a few key technologies. Deep Space Solar Powered Small Spacecraft CubeSat Deployable Reflector Solar Concentrator Astrodynamics Space Vehicles
62	Etude, modélisation dynamique et développement d'un capteur solaire thermique à concentration de nouvelle génération Lin, Qinglong 28 November 2011 (has links) Ce travail a pour objet de développer une nouvelle technologie de l’énergie solaire à concentration. Il porte sur la présentation du concept, la réalisation prototypique et l’étude optique et énergétique d’un nouveau concentrateur solaire QingSun™. Ce concentrateur a une forme de parallélépipède rectangulaire et comporte des lentilles de Fresnel linéaires, des parois tapissées de miroir et d’un récepteur solaire mobile entraîné par un système de suivi à l’intérieur du caisson de concentration. Un modèle optique et un modèle énergétique ont été élaborés et validés avec une série d’expériences. Ils ont permis d’étudier le fonctionnement et les performances énergétiques du concentrateur. Une étude de l’influence paramétrique de l’inclinaison et l’orientation a été effectuée et a montré que l’inclinaison a plus d’influence que l’orientation sur les performances. Enfin, les performances énergétiques optimales du concentrateur ont été estimées. / This work is for the purpose to develop a new solar concentrating technology. It covers the presentation of the concept, the prototype realization and the optical and energy study of a new solar concentrator QingSun™. This concentrator has a shape of rectangular parallelepiped and includes linear Fresnel lenses, mirror-lined walls and a mobile solar receptor controlled by a tracking system inside the casing. An optical model and an energy model were developed and validated with a series of experiments. The both models permitted us to examine the function and the energy performance of the concentrator. A parametric study of the influence of the tilt and the orientation was performed and showed that the tilt had more influence than the orientation. Finally, the optimal energy performance of this concentrator was estimated. Concentrateur Solaire Lentille de FRESNEL Linéaire Miroir QingSunTM Système de Suivi Modèle optique Modèle énergétique Solar concentrator FRESNEL lens Linear Mirror QingSunTM Tracking system Optical model Energy model
63	Análise experimental dos processos de transferência de calor aplicados à concentração solar Santos, Vitor Luiz Rigoti dos 28 July 2008 (has links) Made available in DSpace on 2016-12-23T14:08:12Z (GMT). No. of bitstreams: 1 Vitor Luiz Rigoti dos Anjos.pdf: 1989527 bytes, checksum: ff87f9a6cd0a1d2d7314336dc8689bf7 (MD5) Previous issue date: 2008-07-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Having in mind the necessity to pump heavy crude oil from notoriously sunny regions of Brazil (northern Brazil regions general speaking or northern Espirito Santo state specifically), the utilization of solar radiation appears as an alternative thermal source to heat on-shore pipelines and storage tanks. The present work exhibits the basic steps to project, design, construction and test of a parabolic solar concentrator prototype, as well as shows experimental results gotten from the activities developed by the whole project and points out some possibilities to enhance the system for future operations. Here, the main objective is to increase heat transfer to a tube installed on parabolic focus (absorber tube). Using distinct configurations for the absorbers tubes, the work fluid is heated and analysis are prosecuted over collected data aiming to reach the main goal, which is to study the pressure drop reduction by viscosity decreasing of heavy oils flow using solar energy collected by a parabolic concentrator. / Tendo em vista a necessidade de transportar óleos pesados produzidos em regiões notoriamente ensolaradas do Brasil (tais como o norte do estado do Espírito Santo e estados da região Nordeste), o aproveitamento da radiação solar incidente como fonte de energia térmica alternativa para aquecimento de oleodutos e tanques de armazenamento terrestres (on-shore) surge como uma solução para a redução da perda de carga induzida no escoamento através da redução da viscosidade do fluido. O presente trabalho apresenta de modo sucinto as etapas de dimensionamento, projeto, construção e teste de um protótipo de concentrador solar parabólico, bem como os resultados experimentais obtidos durante as atividades do projeto como um todo, além de apontar também novas possibilidades de melhoria do sistema para futuras operações. A principal proposta deste trabalho é a otimização do tubo absorvedor do concentrador solar, a fim de aumentar o aproveitamento da radiação incidente. Utilizando configurações distintas de tubos absorvedores instalados sobre o foco do concentrador solar parabólico experimental, o fluido de trabalho é aquecido e, de posse dos dados coletados nos experimentos são feitas as devidas análises para alcançar o objetivo do projeto principal, que é obter uma forma de redução da perda de carga em escoamentos de óleos pesados utilizando a energia solar coletada por um concentrador parabólico. Energia solar Aquecimento solar Eficiência energética Concentrador parabólico Solar energy Solar heating Energy efficiency Parabolic concentrator
64	Análise óptica e térmica do receptor de um sistema de concentradores Fresnel lineares Scalco, Patricia 22 January 2016 (has links) Submitted by Silvana Teresinha Dornelles Studzinski (sstudzinski) on 2017-04-19T16:40:27Z No. of bitstreams: 1 Patricia Scalco_.pdf: 2617305 bytes, checksum: 329172a91dc38579cc85445e7b13abf1 (MD5) / Made available in DSpace on 2017-04-19T16:40:27Z (GMT). No. of bitstreams: 1 Patricia Scalco_.pdf: 2617305 bytes, checksum: 329172a91dc38579cc85445e7b13abf1 (MD5) Previous issue date: 2016-01-22 / CNPQ – Conselho Nacional de Desenvolvimento Científico e Tecnológico / O estudo de diferentes fontes de energia é de extrema importância, tanto em termos econômicos e sociais, como no âmbito ambiental. Assim, o uso da energia solar para a geração de calor para alimentar processos que necessitam de temperaturas em torno de 300 ºC aparece como uma alternativa para suprir o uso de combustíveis fósseis em ambientes industriais, seja de forma parcial ou total. Para atingir essa faixa de temperatura, devem ser utilizados equipamentos de alto desempenho e que possam concentrar ao máximo a radiação solar. Assim, é utilizada a tecnologia de refletores Fresnel lineares, que se baseia no princípio de concentração solar, onde os raios solares incidem em espelhos que refletem essa radiação para um receptor. O receptor é composto por um tubo absorvedor e por uma segunda superfície refletora, conhecida como concentrador secundário, que tem como função maximizar a quantidade de raios absorvidos pelo receptor. Esse tipo de instalação tem se mostrado competitiva diante de outros tipos de concentração solar devido à sua estrutura simples, custo reduzido e fácil manutenção. Assim, neste trabalho serão analisados aspectos ópticos e térmicos do conjunto do receptor, tanto para o concentrador secundário do formato trapezoidal como para o CPC. Para isso, o estudo foi dividido em duas etapas. Na primeira etapa foi feito o traçado de raios para as duas geometrias do concentrador secundário estudadas afim de determinar o fator de interceptação e as perdas ópticas envolvidas neste processo. Além disso, foi analisada a influência da inserção de uma superfície de vidro na base do receptor. A segunda etapa consistiu na análise térmica, onde foi feito o estudo da transferência de calor no receptor com a finalidade de determinar a eficiência do sistema, bem como os fatores que influenciam no desempenho do mesmo. Na análise geométrica, o fator de interceptação para a concentrador secundário do tipo trapezoidal foi de 36% para o receptor aberto e 45% para o receptor com o fechamento de vidro. Para o concentrador secundário do tipo CPC, os resultados foram de 44% para o receptor aberto e 56% para o receptor isolado com vidro. Através da análise térmica, foi possível estabelecer a eficiência do sistema que, para a melhor condição de trabalho, DNI de 1000 W/m², foi de 80%. / The study of different energy sources is extremely important, both in economic and social scope, as well as in the environmental field. Thus, the use of solar energy for the generation of heat to feed processes that require temperatures around 300 ºC appears as an alternative to supply the use of fossil fuels in industrial environments, either partially or totally. To reach this temperature range, high-performance equipment must be used that can concentrate solar radiation to the maximum. Thus, Fresnel linear reflector technology is used, which uses the principle of solar concentration, where the solar rays focus on mirrors that reflect this radiation to the receiver. The receiver is composed of an absorber tube and a second reflecting surface whose function is to maximize the number of rays absorbed by the receiver. This type of installation has been competitive in comparison to other types of solar concentration because of its simple structure, low cost and easy maintenance. Thus, in this work will be analyzed optical and thermal aspects of the receiver set for the trapezoidal and the CPC secondary concentrator. For this, the study was divided into two stages. In the first stage the ray tracing was done for the two geometries of the secondary concentrator studied in order to determine the interception factor and the optical losses involved in this process. In addition, the influence of insertion of a glass surface on the base of the receptor was isolated by isolating it from the environment. The second stage consisted of the thermal analysis, where the heat transfer study was carried out in the receiver in order to determine the efficiency of the system as well as the factors that influence the performance of the system. In the geometric analysis, the interception factor for the trapezoidal secondary concentrator was 36% for the open receptor and 45% for the receptor with the glass enclosure. For the CPC secondary concentrator, the results were 44% for the open receptor and 56% for the receptor with the glass enclosure. Through the thermal analysis, it was possible to establish the efficiency of the system, which, for the best working condition, DNI of 1000 W/m², was 80%. Refletores fresnel lineares Concentrador secundário Traçado de raios Transferência de calor Linear fresnel reflector Secondary concentrator Ray tracing Heat transfer
65	Evaluation des technologies optiques pour les réseaux domestiques à très haut débit Al Hajjar, Hani 14 March 2013 (has links) (PDF) Over the last ten years, the number of laptop computers, personal digital assistants (PDAs) and other mobile terminals has massively increased. This evolution has led to a huge demand of wireless communications, in the purpose of avoiding wires and connectors to supply mobility in various places such as offices, homes, rail stations or airports. To date, this mobility is mainly offered by radiofrequency (RF) communications using Wi-Fi channels, with a maximum bitrate of 300 Mbps. However, new indoor applications such as non-compressed high-definition (HD) video transfer or remote hard-disk backup require much higher bandwidths (> 2Gbps). Such a bitrate can be transmitted using an optical wireless communications OWC system. In this thesis, a new architecture of OWC has been proposed and studied according to the GROWTH criteria (GReen Optical Wireless InTo Home network). This architecture is based on distributed free-space optical pico-cells in each room of the home interconnected by optical fibers and offering bitrates that exceed 1 Gbps. The work is divided into four parts: dimensioning of the systems and the selection of associated opto-electronics technologies, simulation of the hybrid optical channel (fiber optics + free-space) using the VPI Transmission Maker and Matlab softwares, choice of the wavelength and finally the experimental measurements to validate the performance of the system. Indoor optical communications Infrared Free-space Polymer optical fiber Optical concentrator Photo-receiver High bit rave
66	Fotovoltinio modulio su koncentratoriumi projektavimas ir tyrimas / The Design and Investigation of a Photovoltaic Module with Concentrator Gailiūnas, Paulius 17 June 2013 (has links) Baigiamajame magistro darbe suprojektuotos ir pagamintos dviejų rūšių šviesos koncentratorinės sistemos: jungtinė parabolinė ir sistema su Frenelio lęšiu. Atlikta saulės elementų efektyvumo analizė, išnagrinėtos šviesą koncentruojančių sistemų rūšys bei aptarti jų optiniai parametrai. Frenelio lęšis ir koncentratorinių sistemų laikančiosios konstrukcijos pagamintos vakuuminio formavimo būdu, ieškant pigesnės gamybos technologijos. Baigiamajame darbe atlikti optinio pralaidumo ir lūžio rodiklio, matomos šviesos bangų ilgių ruože, tyrimai bei saulės elementų, esančių šviesos koncentratorinėse sistemose,voltamperinių ir voltvatinių charakteristikų tyrimai. Iš tyrimų rezultatų nustatyti šviesos koncentravimo laipsniai. Darbe diskutuojama apie pigių optinių sistemų galimus pritaikymus ir jų tobulinimo būdus. Išnagrinėjus teorinę ir praktinę dalis, pateiktos išvados ir pasiūlymai. Darbą sudaro 8 dalys: įvadas, saulės elementų efektyvumo ribos, saulės šviesos koncentratoriai ir jų panaudojimas fotoelektrinėse sistemose, eksperimentinių tyrimų metodika, prototipų gamyba, eksperimentiniai tyrimai, išvados, literatūros sąrašas. Darbo apimtis – 82 p. teksto be priedų, 95 pav., 13 lent., 22 bibliografiniai šaltiniai. Atskirai pridedami darbo priedai. / Concentrated PV systems (compound parabolic and Fresnel CPV) have been designed and investigated. The efficiency of solar cells and the types of light concentrated systems have been analyzed and their optical parameters have been discussed. Fresnel lens and the CPV system holding structure have been fabricated by means of vacuum forming machine in this way making the technology of production less expensive. Optical transmittance and refractive index of Fresnel lens were measured in the range of visible light wavelengths. Current-voltage and voltage-power characteristics of solar cells built inside the CPV systems were investigated, based on results the degree of light concentration by Fresnel lens and compound parabolic CPV has been determined. Some discussions regarding possible applications of concentrated PV systems containing the Fresnel lens as well as possible ways of CPV design improvements are given in current work. After analysed theoretical and practical parts, conclusions and suggestions are proposed. Thesis structure: introduction, theoretical and experimental parts, results of experiments, conclusions and references. Thesis consist of: 82 p. text without appendixes, 95 pictures, 13 tables, 22 bibliographical entries. Appendixes included. Physics Frenelio lęšis Jungtinis parabolinis konentratorius Lūžio rodiklis Optinis pralaidumas Vakuuminis plastiko formavimas Fresnel lens Compound parabolic concentrator Refractive index Optical transmittance Resin transfer molding
67	Optimisation, design, development, and trial of a low-cost solar oven with novel concentrator geometry Berryman, Ian January 2016 (has links) A promising and novel solar concentrator design has been thoroughly investigated and optimised. A prototype concentrator based on this novel geometry was validated using ray tracing techniques. This ray tracing demonstrated the comparative performance of this novel concentrator in regards to equivalent parabolic dishes. The effect of mirror surface normal errors on performance was established using Monte-Carlo based ray tracing code, which agreed well with the optical performance of this prototype which was determined experimentally. A need for low-cost solar cookers to replace bio-mass worldwide was identified, and the concentrator design was then developed as a low-cost solar oven. Despite existing in some number, no current design is able to achieve high performance at low-cost. An industrial partner, Dytecna, was initially involved in the process of this development of the system as a solar cooker. In support of a field trial for the solar cooker developed with Dytecna, a detailed thermal model of the oven was developed. A low-cost lightmeter was constructed and calibrated in order to measure the direct normal irradiance during the field trial in Italy. Laboratory work provided baseline results for the heating of various thermal masses in the oven. The Italian field trials provided a wealth of feedback into the design of the system and many valuable results. The solar cooker was able to bring 0.75L of water to the boil in 33 minutes with an average heat throughput of 203W. Important benchmark results and practical experience of several competing receiver materials was obtained; further lab testing provided more accurate measurements of the receivers' performances. The experiences of the Italian field trial were fed back into the design of a subsequent prototype, intended for a much larger field trial in Tanzania. Improvements in the hotplate, receiver material, and the oven were all incorporated into the design. Additionally, the structure of the solar cooker was redesigned to incorporate a low-cost wooden construction. Supporting work was conducted for the month long trial in which 8 solar cookers would be distributed to families in Tanzania. The field trial in Tanzania provided a wealth of user feedback into the design. At the same time the new solar cooker exceeded previously established performances in Italy. The new design was able to provide an average of 246W of heat to 1kg of water, which was brought to boiling point in 25 minutes. This represents a heating efficiency of 66&percnt; compared to the incident solar flux on the hotplate. In response to findings during the Tanzanian trials, further laboratory work was conducted into establishing the reflectivities of low-cost candidate mirror materials. Throughout all phases of the project the design of the solar cooker was refined and improved with the goal of a solar cooker design that could reach price-point, performance, and usability standards which would ensure market success.
68	Construção e avaliação térmica de um sistema concentrador parabólico com seguidor solar / Construction and evaluation of a parabolic concentrator with solar tracker Oliveira Junior, Gilberto Bueno de [UNESP] 18 December 2015 (has links) Submitted by GILBERTO BUENO DE OLIVEIRA JUNIOR null (gilberto.bueno@yahoo.com.br) on 2016-02-03T13:55:05Z No. of bitstreams: 1 Dissertação - Concentrador Solar - VERSÃO FINAL - V0017.pdf: 5444637 bytes, checksum: 24e8c86834b9e8a8354dc9e314104039 (MD5) / Approved for entry into archive by Ana Paula Grisoto (grisotoana@reitoria.unesp.br) on 2016-02-05T11:29:33Z (GMT) No. of bitstreams: 1 oliveirajunior_gb_me_bauru.pdf: 5444637 bytes, checksum: 24e8c86834b9e8a8354dc9e314104039 (MD5) / Made available in DSpace on 2016-02-05T11:29:33Z (GMT). No. of bitstreams: 1 oliveirajunior_gb_me_bauru.pdf: 5444637 bytes, checksum: 24e8c86834b9e8a8354dc9e314104039 (MD5) Previous issue date: 2015-12-18 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / The searching for renewable energy sources has mobilized much of the scientific community, which work is tireless in pointing out feasible solutions to use clean energy. Solar energy is natural choice among others, because its availability and amount. A known way to use this energy is by focusing solar rays through parabolics, which allow rays concentration to a small area. The advantage of this type of project is to produce thermal energy at high temperatures. This energy has a wide application on producing other forms of energy such as electric power in turbines since solar concentrators provide steam at high pressure and temperature. The goal of this study is to build a solar concentration device and measure the energy produced, as well its efficiency in transformation. Thus, was built up a parabolic concentrator and a solar tracker to motion in three dimension, which allows device alignment towards incidence of solar rays. Was utilized a pumping system to flowing thermal fluid at high temperatures through the absorber. The energy balance of this thermal fluid, led to obtain behavior curves of net power and system efficiency. The experimental was divided in two parts. On the first one, was obtained the stagnation temperature and the other one, was measured the eficiency over a circulating thermal fluid. The stagnation temperature measured in december was 476,5°C, at 4:25PM. The second part of tests has shown an efficiency of 33% on first one assay. However when was utilizing another form to measure the solar irradiation (theoretic approach), the efficiency rises between 45% to 55%, regarding steady state conditions. Furthermore, this work allowed discussions to discover ways to increase the energy efficiency. / A busca por formas alternativas de energia tem mobilizado grande parte da comunidade científica, cujos trabalhos são incansáveis em apontar soluções viáveis para o aproveitamento das energias renováveis e limpas. A energia solar se destaca dentre todas pela sua disposição e quantidade. Uma forma já conhecida de sua utilização é através da concentração em sistemas parabólicos, que permitem o direcionamento dos raios do Sol para uma pequena área. A vantagem deste tipo de projeto é a produção de energia térmica a altas temperaturas e pressões. Essa energia concentrada possui grande aplicação, pois permite a conversão eficiente em energia elétrica, produzidas em turbinas a vapor. O objetivo deste trabalho foi construir um dispositivo termo-eletrônico para concentração solar e, com isso, quantificar a energia produzida, bem como sua eficiência. Assim sendo, foi construído um concentrador parabólico e um rastreador solar com movimento tridimensional, que permite o alinhamento do equipamento com a incidência dos raios do Sol. Foi utilizado ainda, para circulação no interior do absorvedor, um sistema de bombeamento de fluido térmico de alto ponto de ebulição e que não sofria deformação a altas temperaturas. O balanço energético no dispositivo permitiu obter as curvas de potência útil e da eficiência do sistema. O experimento foi dividido em duas partes. Na primeira parte, foi obtida a temperatura de estagnação e na outra parte, foi medida a eficiência energética sobre o fluido térmico em circulação. A temperatura de estagnação medida em dezembro foi de 476,5 °C, às 4:25 PM. A segunda parte dos testes mostrou uma eficiência de 33% no primeiro ensaio. No entanto, quando se utilizou uma outra forma de medir a irradiação solar (abordagem teórica), a eficiência aumentou, permanecendo entre 45% a 55%, considerando regime permanente. Além disso, possibilitou a discussão de formas de incrementar a sua eficiência. / Capes: 2012/2014 Microcontrolador Concentrador solar parabólico Rastreador solar Superfície absorvedora Fluido térmico Eficiência térmica Parabolic solar concentrator Solar tracker Microcontroller Absorber surface Thermal Fluid Thermal efficiency
69	Projeto, constru??o e levantamento de desempenho de um concentrador solar cil?ndro parab?lico com mecanismo autom?tico de rastreamento solar Souza Filho, Jos? Ribeiro de 09 June 2008 (has links) Made available in DSpace on 2014-12-17T14:57:41Z (GMT). No. of bitstreams: 1 JOSERSF.pdf: 1452502 bytes, checksum: 2b2b5bbeb8a8c00c381af23d21ebe405 (MD5) Previous issue date: 2008-06-09 / An cylinder-parabolic solar concentrator is presented to produce steam for different applications. This prototype was built in glass fiber with dimensions that follow a study of optimization of parameters inherent in the optical reflection of sunlight by the surface of reflection and absorption of the same by tubing that leads the fluid of work. The surface of the concentrator of 2.24 m? has been covered by layers of mirror with 1.0 m of lenght and 2.0 cm wide. The absorb tubing consists of a copper tube diameter equal to 28 mm. The concentrator is moving to follow the apparent motion of the sun. It will be presented the processes of manufacturing and assembly of the concentrator proposed, which has as main characteristics the facilities construction and assembly, in addition to reduced cost. Will be presented data from tests performed to produce steam setting up some parameters that diagnose the efficiency of the concentrator. It will be demonstrated the viabilities thermal, economic and of materials of the proposed system.The maximum temperature achieved in the vacuum tube absorber was 232.1?C and average temperature for 1 hour interval was 171.5?C, obtained in a test with automation. The maximum temperature achieved in the output of water was 197.7?C for a temperature of 200.0?C in the absorber tube. The best average result of the water exit temperature to interval of 1 hour was 170.2?C for a temperature of 171.2?C, in the absorber tube, obtained in test with automation. Water exit mean temperatures were always above of the water steaming temperature. The concentrator present a useful efficiency of 38% and a production cost of approximately R$ 450,00 ( $ 160.34) / Apresenta-se um concentrador solar do tipo cilindro-parab?lico para a produ??o de vapor para aplica??es diversas. A superf?cie da par?bola foi constru?da em fibra de vidro, com dimens?es que seguem um estudo de otimiza??o de par?metros ?pticos inerentes ? reflex?o dos raios solares pela superf?cie refletora e a intercepta??o desses raios pelo tubo absorvedor. A superf?cie do concentrador de 2,24 m2 foi recoberta por l?minas de espelho de 1,0 m de comprimento por 2 cm de largura. A tubula??o absorvedora ? composta de um tubo de cobre de di?metro correspondente a 28 mm. O concentrador tem mobilidade para rastrear automaticamente o movimento aparente do sol. Ser?o mostrados os processos de fabrica??o e montagem do concentrador proposto, que apresenta como caracter?sticas principais, as facilidades de constru??o e montagem, al?m de custo reduzido. A temperatura m?xima alcan?ada no tubo absorvedor vazio foi 232,1?C e a temperatura m?dia para intervalo de 1 hora foi 171,5 ?C, obtidas em um teste com automatiza??o. O pico m?ximo obtido na temperatura de sa?da de ?gua foi de 197,7?C para uma temperatura de 200,0?C no do tubo absorvedor. O melhor resultado m?dio da temperatura de sa?da da ?gua para intervalo de 1 hora foi 170,2?C para uma temperatura de 171,2?C, no tubo absorvedor, obtido em teste com automatiza??o. As m?dias de temperaturas de sa?da de ?gua estiveram sempre acima da temperatura de vaporiza??o da ?gua. O concentrador apresenta uma efici?ncia ?til de 38% e um custo de fabrica??o de aproximadamente R$ 450,00 ( $ 160,34) Energia solar Concentrador solar cilindro parab?lico Produ??o de vapor Solar energy Solar concentrator parabolic-cylinder Producing of steam CNPQ::ENGENHARIAS::ENGENHARIA MECANICA
70	Speciální problémy lomové mechaniky singulárních koncentrátorů napětí v kompozitních materiálech / Special problems of fracture mechanics of singular stress concentrators in composite materials Krepl, Ondřej January 2018 (has links) Předkládaná disertace se zabývá obecnými singulárními koncentrátory napětí a to zejména ostrým vrubem neboli V-vrubem, ostrým bi-materiálovým vrubem a ostrou materiálovou inkluzí. V první části práce je stručně nastíněna Kolosovova-Muschelišviliho teorie komplexních potenciálů rovinné pružnosti aplikovaná na problémy lomové mechaniky. Dále je diskutována lineární elastická lomová mechanika trhlin, V-vrubů, bi-materiálových vrubů a bi-materiálových spojů. V rešerši jsou dále zahrnuta kritéria směru iniciace trhliny i její stability a to kritérium maximálního tečného napětí, faktor hustoty deformační energie a sdružené napěťově-energetické kritérium. Následují text uvádí omezení jednoparametrové lomové mechaniky a výhody její multiparametrové formy. Další část představuje metody pro určení nezbytných parametrů pro popsání pole napětí a posuvů v blízkosti obecného singulárního koncentrátoru napětí. Tyto parametry zahrnují vlastní číslo a zobecněný faktor intenzity napětí. Vlastní číslo je určeno jako řešení problému vlastních hodnot zatímco metody pro určení zobecněného faktoru intenzity napětí tvoří Psi-integrál a metoda přeurčitosti. Obě zmiňované metody jsou aplikovány na zde studované obecné singulární koncentrátory napětí a vzájemně porovnány. Kritéria pro vznik trhliny v obecném singulárním koncentrátoru napětí jsou navržena. V rámci numerických příkladů jsou předpovězeny směry iniciace trhliny a podmínky stability pro konkrétní problémy. Kritické síly pro V-vrub jsou předpovězeny pomocí výše zmíněných kritérií a srovnány s experimentálními daty v literatuře. V následující části jsou ukázány metody analýzy multi-materiálového problému. V závěru práce jsou shrnuty způsoby iniciace a šíření trhliny v blízkosti ostré materiálové inkluze.

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