CÁLCULO FINITO: DEMONSTRAÇÕES E APLICAÇÕES

Kondo, Pedro Kiochi

30 September 2014

Made available in DSpace on 2017-07-21T20:56:33Z (GMT). No. of bitstreams: 1 Pedro Kiochi Kondo.pdf: 1227541 bytes, checksum: daffb8a8bc299356bce288603753944c (MD5) Previous issue date: 2014-09-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In this work some topics of the Discrete or Finite Calculus are developed. In particular, we study difference operators, factorial powers, Stirling numbers of the first and second type, the Newton’s formula of differences, the fundamental theorem of the Finite Calculus, the summation process, and the Bernoulli numbers and Bernoulli polynomials. Then we show the effectiveness of the theory for the calculation of closed formulas for the value of many finite sums. We also study the classical problem of obtaining the polynomials which express the value of the sums of powers of natural numbers. / Neste trabalho desenvolvemos alguns tópicos do Cálculo Discreto ou Finito. Em particular, estudamos operadores de diferenças, potências fatoriais, números de Stirling do primeiro e do segundo tipo, a fórmula de diferenças de Newton, o teorema fundamental do Cálculo Finito, o processo de somação e os números e polinômios de Bernoulli. Mostramos então a eficácia da teoria no cálculo de fórmulas fechadas para o valor de diversas somas finitas. Também estudamos o problema clássico de obter os polinômios que expressam o valor de somas de potências de números naturais.

cálculo finito ou discreto

números de Stirling

somação

números de Bernoulli

polinômios de Bernoulli

finite or discrete calculus

Stirling numbers

summation

Bernoulli Numbers

Bernoulli polynomials

Modelagem e análise experimental de um protótipo didático de motor stirling / Modeling and experimental analysis of a didactic prototype stirling engine

Dias, Laura Vitória Rezende

05 December 2016

Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2017-01-13T13:09:46Z No. of bitstreams: 2 Dissertação - Laura Vitória Rezende Dias - 2016.pdf: 6797582 bytes, checksum: 102b4a133abc8e93649bbe49a562dcad (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-01-16T11:03:49Z (GMT) No. of bitstreams: 2 Dissertação - Laura Vitória Rezende Dias - 2016.pdf: 6797582 bytes, checksum: 102b4a133abc8e93649bbe49a562dcad (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-01-16T11:03:49Z (GMT). No. of bitstreams: 2 Dissertação - Laura Vitória Rezende Dias - 2016.pdf: 6797582 bytes, checksum: 102b4a133abc8e93649bbe49a562dcad (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2016-12-05 / This work is the development of a prototype for Stirling engine which was designed with the aim of understanding the machine mainly about the component parts, construction difficulties and type of relevant parameters for its performance. Starting from geometric and thermodynamic data from the prototype, with application of the Schmidt modeling, a digital program was developed to calculate values such as power output and efficiency. The prototype was also used to carryd out bench tests using a data acquisition system implemented in electronics platform Arduino Uno. Using Hall-effect and temperature sensors, following the steps of the algorithm proposed by Conner, it was possible to raise data as temperature and revolutions per minute (rpm) for the flywheel coupled to the prototype shaft, these variables made possible to estimate the power output and operational conditions such as the gas temperature in compression and expansion spaces, etc. The comparison between results from simulations and the bench tests demonstrated the great influence of prototype construction data (volumes, source temperature, etc.) on the output power and the performance of the equipment and also how far is the constructed device from the ideal model proposed by Schmidt. The experiments have shown that the prototype can reach a rotation speed up to 1.200 rpm at 159 degrees Celsius of external engine heat source, with output power of 100 milliwatt. The prototype resulting from this research, although small, has allowed the access to important information that can open paths to the construction of larger Stirling engines and consequently with output powers closer to practical use. / Este trabalho consiste no desenvolvimento de um protótipo didático de motor Stirling, que foi concebido com o intuito de compreender a máquina principalmente em relação as partes componentes, as dificuldades construtivas e os tipos de parâmetros relevantes para o desempenho. Partindo de dados geométricos e termodinâmicos do protótipo, com aplicação da modelagem de Schmidt, elaborou-se um programa digital que permite calcular grandezas como potência de saída e rendimento. Empregando o protótipo, foram também realizados ensaios em bancada de laboratório, para os quais utilizou-se um sistema de aquisição de dados implementado na plataforma eletrônica Arduino Uno. Através do uso de sensores de efeito Hall e de temperatura, seguindo os passos do algoritmo proposto por Conner, foi possível levantar dados como temperatura e revoluções por minuto (rpm) do volante acoplado ao eixo do protótipo, o que permitiu estimar sua potência de saída e as condições operacionais, como a temperatura do gás nos espaços de compressão e expansão, etc. A comparação entre a simulação computacional e os resultados dos ensaios em bancada demonstrou a influência dos dados construtivos do protótipo (volumes, temperatura da fonte, etc.) sobre a potência de saída e o rendimento do protótipo e também o quão distante está o dispositivo construído do modelo ideal proposto por Schmidt. Os resultados obtidos pelos ensaios mostraram que o protótipo alcança velocidade de rotação de até 1.200 rpm a uma temperatura de 159 graus Celsius da fonte térmica externa ao motor, com potência de saída de 100 miliwatt. O protótipo resultante desta pesquisa, apesar de pequeno porte, permitiu a obtenção de informações importantes que podem abrir caminhos para a construção de motores Stirling de maiores dimensões e consequentemente com valores de potências de saída para utilização prática.

Motor Stirling

Modelo isotérmico de Schmidt

Energia renovável

Motor de combustão externa

Stirling engine

Isothermal model of Schmidt

Renewable energy

External combustion engine

Développement d'un modèle de prédimensionnement d'un ensemble alternateur - machine Stirling à pistons libres / Development of a preliminary design of a free piston Stirling engine coupled with a linear electrical alternator

Salquebre, Quentin

21 March 2019

Le moteur Stirling a été développé il y’a 200 ans. Cependant son développement n’a jamais connu un grand essor. Le contexte énergétique actuel a relancé l’intérêt porté à ces machines. En effet la possibilité de le faire fonctionner à partir de n’importe quelle source de chaleur externe lui permet d’être associé à des sources d’énergie renouvelable comme l’énergie solaire. Au-delà des avantages écologiques, le développement par W. Beale à la fin des années 1960 d’un moteur Stirling à pistons libres (ou FPSE pour Free Piston Stirling Engine) a ajouté de nouveaux intérêts à un tel moteur. Cette nouvelle architecture permet au moteur de fonctionner sans système d’entrainement des pistons. Dans de telles machines, le mouvement des pistons n’est plus déterminé par la géométrie du système d’entrainement. Ces derniers sont mis en mouvement par les forces de pressions occurrents à l’intérieur du moteur. La dynamique des pistons et la thermodynamique du système sont alors couplées, rendant plus complexe la modélisation complète du système.Cette thèse présente une nouvelle technique de modélisation des machines Stirling à pistons libres, intitulée LHA5V pour Linear Harmonic Analysis 5 Volumes, permettant de coupler la thermodynamique du système et la réponse mécanique des pistons libres. Celle-ci repose alors sur la décomposition du moteur Stirling en cinq sous systèmes ouverts : deux espaces à volume variables, deux échangeurs de chaleur et le régénérateur. Nous supposons que les variables d’état varient périodiquement et le modèle détermine comment celles-ci varient en valeur moyenne, en amplitude et en phase afin de satisfaire les équations de conservation de la masse et de l’énergie. L’aspect innovant du modèle thermique repose sur la prise en compte implicite des pertes inhérentes au fonctionnement. Celles-ci ont en effet un impact direct sur le mouvement des pistons. Par ailleurs cette thèse présente également un modèle de génératrice électrique linéaire pouvant être couplé à la partie thermique. Le modèle électrique repose sur un calcul analytique de la force de poussée du stator sur la partie mobile. Le calcul des flux et du niveau d’induction dans le circuit magnétique est effectué à partir d’un réseau de perméances judicieusement paramétré.Que ce soit pour la modélisation thermique ou la modélisation électrique, chacun des modèles a été conçu pour avoir un temps de calcul faible, tout en restant le plus précis possible sur la prédiction des performances. Ceux-ci ont à chaque fois été confrontés à des données expérimentales, ou à d’autres techniques de modélisation plus fines de façon concluante. / Though the Stirling engine was invented two centuries ago, it has never really grown to a fully marketable level. The current energy context has renewed the interest in this engine. Their ability to work with any external source of heat allow them to be associated with renewable energy such as solar energy. Beyond its ecological benefits, the invention of the free piston Stirling engine by W. Beale at the end of the 1960’s further increased the interest in Stirling engines. This novel structure allows the engine to operate without mechanical interface between pistons, which are driven entirely by the gas or other spring forces. In such engines, the pistons kinematics and the system thermodynamics are intimately coupled, thus increasing the complexity of the complete system computer modelling.This PhD presents an innovative technique to model a free piston Stirling engine that takes into account the coupling between the system thermodynamics and the mechanical response of the free pistons. This technique has been named LHA5V standing for Linear Harmonic Analysis 5 Volumes. It consists in splitting the engine in five open sub-systems: the compression and expansion spaces, the heater, the cooler and the regenerator. We hypothesize that the state variables are periodic, and the model then determines the variations of their mean, amplitude and phase values in order to satisfy the mass and energy conservation equations. This PhD also presents a model for a linear electric alternator, which can be coupled to the power piston. This electrical model is based on an analytical calculation of the thrust between the stator and the magnets. Magnetic flux and induction in the iron are determined by a carefully tuned reluctance network.Both thermal and electrical models have been designed to optimize both computing time and accuracy. The models generated have systematically been compared to experimental data or finite element analysis, with satisfactory results.

Modélisation

Moteur Stirling

Pistons libres

Analyse harmonique

Génératrice linéaire

Réseau de reluctance

Modeling

Stirling engine

Free piston

Harmonic analyse

Linear actuator

Reluctance network

620

Modeling, simulation, and analysis of grid connected dish-stirling solar power plants

Howard, Dustin F.

07 July 2010

The percentage of renewable energy within the global electric power generation portfolio is expected to increase rapidly over the next few decades due to increasing concerns about climate change, fossil fuel costs, and energy security. Solar thermal energy, also known as concentrating solar power (CSP), is emerging as an important solution to new demands for clean, renewable electricity generation. Dish-Stirling (DS) technology, a form of CSP, is a relatively new player in the renewable energy market, although research in the technology has been ongoing now for nearly thirty years. The first large plant utilizing DS technology, rated at 1.5 MW, came online in January 2010 in Peoria, AZ, and plants rated for several hundred MW are in the planning stages. Increasing capacity of this technology within the utility grid requires extensive dynamic simulation studies to ensure that the power system maintains its safety and reliability in spite of the technological challenges that DS technology presents, particularly related to the intermittency of the energy source and its use of a non-conventional asynchronous generator. The research presented in this thesis attempts to fill in the gaps between the well established research on Stirling engines in the world of thermodynamics and the use of DS systems in electric power system applications, a topic which has received scant attention in publications since the emergence of this technology. DS technology uses a paraboloidal shaped dish of mirrors to concentrate sunlight to a single point. The high temperatures achieved at the focal point of the mirrors is used as a heat source for the Stirling engine, which is a closed-cycle, external heat engine. Invented by the Scottish clergyman Robert Stirling in 1816, the Stirling engine is capable of high efficiency and releases no emissions, making it highly compatible with concentrated solar energy. The Stirling engine turns a squirrel-cage induction generator, where electricity is delivered through underground cables from thousands of independent, autonomous 10-25 kW rated DS units in a large solar farm. A dynamic model of the DS system is presented in this thesis, including models of the Stirling engine working gas and mechanical dynamics. Custom FORTRAN code is written to model the Stirling engine dynamics within PSCAD/EMTDC. The Stirling engine and various other components of the DS system are incorporated into an electrical network, including first a single-machine, infinite bus network, and then a larger 12-bus network including conventional generators, loads, and transmission lines. An analysis of the DS control systems is presented, and simulation results are provided to demonstrate the system's steady state and dynamic behavior within these electric power networks. Potential grid interconnection requirements are discussed, including issues with power factor correction and low voltage ride-through, and simulation results are provided to illustrate the dish-Stirling system's capability for meeting such requirements.

Dish stirling

Concentrating solar power

Solar

Renewable energy

Power generation

Electric power

Solar thermal

Solar power plants

Stirling engines

Electric power systems

Production optimale d’énergie pour une communauté à petite échelle : application à l’optimisation d’une centrale solaire hybride produisant électricité et chaleur / Optimal energy delivery at a small community scale : application to the optimization of a hybrid solar power plant producing electricity and heat

Mabrouk, Mohamed Tahar

05 November 2015

Ce travail traite la modélisation et l'optimisation des centrales solaires thermodynamiques à concentration produisant de l'électricité pour l'électrification des zones rurales isolées et mal raccordées au réseau électrique. D’abord, un modèle optique et thermique détaillé des concentrateurs solaires cylindro-paraboliques est présenté permettant l'identification de capteurs existants et la création de corrélations qui peuvent être injectées dans un modèle plus global. Dans un second temps, un modèle original d'un stock de chaleur stratifié de type « lit de roche » est développé. Le nouveau modèle proposé permet de déterminer analytiquement le profil de température dans le stock à n'importe quel instant dans le cas d'une température d'entrée régulée. Ensuite, deux alternatives de bloc moteur sont modélisées : le moteur Stirling et le Cycle Organique de Rankine (ORC acronyme anglais pour Organic Rankine Cycle). Concernant le moteur Stirling, une revue critique des modèles existants a été effectuée. Certains de ces modèles ont été implémentés et complétés par des modèles originaux des pertes par fuite de matière et par effet navette. Le cycle organique de Rankine, lui, est modélisé par un modèle orientée vers l'optimisation. Enfin, une optimisation mono et multicritère d’une centrale solaire est effectuée. La configuration étudiée est équipée d’un stock de chaleur et d’une chaudière d’appoint. Elle est optimisée selon trois critères : le coût moyen actualisé de l'électricité (LCOE acronyme anglais pour Levelized Cost Of Electricity), le rendement énergétique de la centrale et la quantité de CO2 émise par Kilowatt heure d'électricité produite / This work deals with the modelling and the optimization of thermodynamic solar power plants intended to supply electricity to isolated locations. Firstly, a state of the art of solar collectors is achieved and a model for parabolic trough collectors is proposed. This model is used for actual collectors identification. It is used also to propose correlations to be introduced in the whole system model. In a second time, a state of the art of energy storage technologies is conducted and an original model of a packed bed storage tank is proposed. This model gives an explicit solution of the temperature inside the tank without using a time step based numerical resolution. Two alternatives for the power block are given: Stirling engines and Organic Rankine Cycles. For Stirling engines, a critical review of existing models is performed. Some losses occurring in Stirling engines are not well documented in the literature as leakage losses at the power piston and displacer gap losses. Therefore, original models are proposed to estimate these losses. When compared to former models in the literature, the new model of the displacer gap losses demonstrates clearly that it is very important to use decoupled models with caution. Concerning the ORC, an optimization-oriented model is proposed. Finally, a mono and multi-objective optimization of a solar power plant is performed. The optimized system is composed of a solar field, a packed bed heat storage, a power block and an auxiliary fired heater. Objective functions used in this study are: the Levelized Cost of Electricity (LCOE), the energetic efficiency of the power plant and CO2 emission per kilowatt hour of electricity

Centrales solaires hybrides

Stockage de chaleur

Optimisation énergétique

Moteur Stirling

Cycle organique de Rankine

Hybrid solar power plants

Thermal energy storage

Optimization

Stirling engines

Organic Rankine cycle

621.199

Optimizarea exergoeconimică a unei centrale solare termice / Optimisation exergoéconomique d’une centrale solaire thermodynamique / The exergoeconomic optimization of a solar thermal power plant

Marin, Andreea

23 May 2014

Dans le contexte économique et énergétique actuel, la mise en œuvre de technologies à l'aide de l'énergie renouvelable comme source de chauffage offre un double avantage: la réduction de la pollution et des coûts de carburant. Il y a un besoin de promouvoir les sources renouvelables d'énergie comme les sources significatives de production d'énergie pour les systèmes décentralisés. Une première étude bibliographique a été fait sur les technologies existantes pour la production d'énergie électrique à partir du solaire. Cette étude consiste dans la recherche d’une nouvelle solution de conversion de l’énergie solaire pour la production d’électricité de faible puissance. L'un des objectifs de cette thèse a été la construction d'un moteur Stirling de type gamma fonctionnant à basse différence de température, adapté à un circuit solaire (capteur plan). Le moteur Stirling a été testé en vue de comparer les résultats expérimentales avec les résultats d’un model Schmidt, fait dans le logiciel, Matlab. Un autre cycle thermodynamique étais étudie dans cette travail, le Cycle Organique Rankine (ORC). Un modèle mathématique a été développé et vérifie dans les logiciels, Thermoptim et EES (Engineering Equation Solver) avec les résultats expérimentaux pour étudier les performances d'installation avec des différentes températures de fonctionnement. La méthode exergétique et la méthode du Pincement sont utilisée pour évaluer les performances du système comme irréversibilité, destruction d’exergie et phénomènes qui se produisent dans toutes les composantes du système ORC pour améliorer son fonctionnement. / In the current economic and energy context, implementation of technologies using renewable energy as heat source has two advantages: reducing pollution and fuel costs. There is a need to promote renewable energy sources such as significant sources of power generation for decentralized systems. In the first part, it was made a literature review on existing technologies for the production of electricity with solar energy. One of the objectives of this thesis was to build a Stirling engine gamma type suitable to use solar energy (flat plate collator). The Stirling engine was tested to compare the experimental results with the results of Schmidt model, realized in the software, Matlab. Another thermodynamic cycle was studied in this work, the Organic Rankine Cycle (ORC). A mathematical model was developed and verified in software, Thermoptim and EES (Engineering Equation Solver) with experimental results to study the installation performance function of different operating temperatures. The entire system and each subsystem are analyzed according to the first and the second law of thermodynamics. The exergy method and Pinch analysis are used to evaluate the performance of the system like irreversibility and exergy destruction, phenomenon that occurs in all components of the ORC system. This analysis is to improve the operation.

Exergie

Cycle Stirling

ORC (Cycle Organique Rankine)

Énergie solaire

Irréversibilité

Optimisation

Exergy

Stirling cycle

ORC (Organic Rankine Cycle)

Solar energy

Irreversibility

Optimization

620

Propagação do momento linear e energia cinética em cadeias granulares afiladas.

Machado, Luis Paulo Silveira

29 July 2011

Made available in DSpace on 2015-05-14T12:14:04Z (GMT). No. of bitstreams: 1 Arquivototal.pdf: 2897753 bytes, checksum: dcf36c9ad33420797b30ee420d027633 (MD5) Previous issue date: 2011-07-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Recently, tapered granular chains have been studied for the development of impact-absorbing devices (shock waves). The characteristic of this system to mitigate shock waves (pulses of linear momentum), makes this material an excellent candidate for such absorbers. Therefore, many studies have been conducted in this direction, but most are numeric character, and some analytical. However, the analytical approximations presented do not show good fits with numerical solutions. In this work we study analytically the propagation of linear momentum and kinetic energy in one-dimensional tapered chains of spherical grains that interact according to the Hertz potential. We apply the binary approximation, based on the supposition that the energy transferred along the chain occurs through successive collisions between two particles. Four settings taper were studied: forward linear, forward exponential, backward linear and backward exponential. With the Binary Theory, we correctly anticipate the trends of increase and decrease the propagation of linear momentum and kinetic energy. However, to capture the correct values of the amplitudes of the pulses of these quantities we developed a numericalanalytic correction to the velocities of particles. Compared the results with numerical solutions of the equations of motion, where we use the Runge-Kutta fourth order. The results show: good agreement between the analytical and numerical theories; forward exponentially tapered chains are the most suitable in the design of absorbers (present exponential decay of linear momentum); a weaker scenario for the propagation of kinetic energy (due to quadratic dependence with the velocity), but the linear momentum is the quantity relevant in the context of impacts.Furthermore, we found good agreement with experimental results presented by F. Melo et al (2006). Thus, we present analytical expressions that capture correctly the propagation of linear momentum and kinetic energy in tapered granular chains. These systems actually demonstrate be excellent for absorbing shock waves, attenuating pulses of linear momentum and saturating kinetic energy. An extension of this work is to study tapered decorated chains and with precompression, allowing the absorption in chains composed of a number smaller grains (short chains). / Recentemente, cadeias granulares afiladas tem sido objeto de estudo para o desenvolvimento de dispositivos absorvedores de impacto (ondas de choque). A caracterıstica deste sistema em atenuar ondas de choque (pulsos de momento linear), torna este material um excelente candidato para tais absorvedores. Assim, vários estudos neste sentido foram realizados, por´em a maioria são de caráter numérico e, alguns, anal´ıticos. Todavia, as aproximaçoes analıticas apresentadas não demonstram bons ajustes com soluções numericas. Neste trabalho estudamos analiticamente a propagação do momento linear e energia cinetica em cadeias afiladas unidimensionais de graos esfericos que interagem segundo o potencial de Hertz. Aplicamos a aproximaçao binaria, baseada na suposiçao que a energia transferida ao longo da cadeia ocorre atraves de colis oes sucessivas entre duas part´ıculas. Estudamos quatro configuraçoes de afilamento: linear para frente, exponencial para frente, linear para tras e exponencial para tras. Com a Teoria Binaria, prevemos corretamente as tendencias de aumento e diminuiçao das propagaçoes do momento linear e energia cinetica. Contudo, para capturarmos os valores corretos das amplitudes dos pulsos dessas grandezas desenvolvemos uma correçao numerico-analıtica para as velocidades das partıculas. Confrontamos os resultados com soluçoes numericas das equaçoes de movimento, onde utilizamos o metodo de Runge-Kutta de quarta ordem. Os resultados demonstram: bom acordo entre as teorias analıtica e numerica; as cadeias afiladas exponencialmente para frente são as mais indicadas nos projetos de absorvedores (apresentam decaimento exponencial do momento linear); um cen´ario mais fraco para a propagação da energia cinetica (devido a dependencia quadratica com a velocidade), porem o momento linear e a grandeza relevante no contexto de impactos. Alem disso, obtivemos bom acordo com resultados experimentais apresentados por F. Melo e colaboradores (2006). Dessa forma, apresentamos expressoes analıticas que capturam corretamente as propagaçoes de momento linear e energia cinetica em cadeias granulares afiladas. Estes sistemas, realmente demonstram serem excelentes para absorver ondas de choque, atenuando pulsos de momento linear e saturando pulsos de energia cin´etica.Uma extensao deste trabalho sera estudar cadeias decoradas afiladas com pre-compressao, que permitem a absorçao de ondas de choque com numero menor de graos nas cadeias (cadeias curtas).

Momento linear

Energia cinética

Propagação de pulsos

Cadeia granular afilada

Stirling Engine

Hot Air Engine

Stirling Cycle

Schmidt s Theory

CIENCIAS EXATAS E DA TERRA::FISICA

Estudo de geração de energia elétrica em motores stirling acionados por biogás e/ou energia solar / Study of electric power generation in Stirling engines driven by biogas and/or solar energy

Dentello, Rodrigo Orefise [UNESP]

28 July 2017

Submitted by Rodrigo Orefise Dentello null (rodrigodentello@gmail.com) on 2017-09-26T19:16:11Z No. of bitstreams: 1 Dissertação de Mestrado Rodrigo Orefise Dentello.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Rejected by Monique Sasaki (sayumi_sasaki@hotmail.com), reason: Solicitamos que realize uma nova submissão seguindo as orientações abaixo: No campo “Versão a ser disponibilizada online imediatamente” foi informado que seria disponibilizado o texto completo porém no campo “Data para a disponibilização do texto completo” foi informado que o texto completo deverá ser disponibilizado apenas 6 meses após a defesa. Caso opte pela disponibilização do texto completo apenas 6 meses após a defesa selecione no campo “Versão a ser disponibilizada online imediatamente” a opção “Texto parcial”. Esta opção é utilizada caso você tenha planos de publicar seu trabalho em periódicos científicos ou em formato de livro, por exemplo e fará com que apenas as páginas pré-textuais, introdução, considerações e referências sejam disponibilizadas. Se optar por disponibilizar o texto completo de seu trabalho imediatamente selecione no campo “Data para a disponibilização do texto completo” a opção “Não se aplica (texto completo)”. Isso fará com que seu trabalho seja disponibilizado na íntegra no Repositório Institucional UNESP. Por favor, corrija esta informação realizando uma nova submissão. Agradecemos a compreensão. on 2017-09-28T13:17:05Z (GMT) / Submitted by Rodrigo Orefise Dentello null (rodrigodentello@gmail.com) on 2017-10-02T12:11:48Z No. of bitstreams: 1 Dissertação de Mestrado Rodrigo Orefise Dentello.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-10-04T15:16:42Z (GMT) No. of bitstreams: 1 dentello_ro_me_guara.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) / Made available in DSpace on 2017-10-04T15:16:42Z (GMT). No. of bitstreams: 1 dentello_ro_me_guara.pdf: 3135657 bytes, checksum: b5e87e13e54b4ab1c494888ed13cc131 (MD5) Previous issue date: 2017-07-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O motor Stirling é um motor de combustão externa que opera com diferenças de temperaturas, produzindo trabalho mecânico e eletricidade. Esse tipo de motor opera em um ciclo fechado, que através do uso de uma fonte quente e uma fria, expande e comprime um fluido de trabalho (ar, hélio ou hidrogênio, dentre os mais comuns), fornecendo assim o movimento de um pistão. Pode operar com calor residual e também com a queima de qualquer tipo de combustível (gás natural, diesel, gasolina, etc). Essa tecnologia tem se destacado para o desenvolvimento de sistemas que operam com biocombustíveis (biogás e syngas) e com energias renováveis, como por exemplo, caso de uso de concentradores solares. Este trabalho tem como objetivo estudar as performances termodinâmica, econômica e ambiental de um sistema Stirling operando com sistema de alimentação a biogás e energia solar, aplicado para a geração de energia elétrica descentralizada. São realizados estudos dos aspectos termodinâmicos do ciclo Stirling, com foco no funcionamento e no trabalho do motor. São efetuadas análises técnicas do sistema operando com câmara de combustão a biogás e utilizando energia de concentrador solar parabólico. Em etapa final são analisados e comparados os aspectos econômicos e ambientais do sistema acionado por biogás e energia solar. Os resultados obtidos mostraram pela teoria de Schmidt uma eficiência do motor Stirling de 67%. Da análise econômica, fica evidente que um maior número de horas de operação corrobora com a viabilidade econômica. Quantos aos aspectos ambientais, o valor da eficiência ecológica do motor Stirling operando a biogás é de 98,02%. No caso do sistema solar utilizando concentrador para alimentar o motor Stirling, a eficiência ecológica indica é de cerca de 98%. Conclui-se que o uso de fontes renováveis, permitem bons níveis de eficiência de geração de energia elétrica de sistemas utilizando motores Stirling de pequeno porte, reduzindo níveis de poluição atmosférica e contribuindo para a redução do efeito estufa. / The Stirling engine is an external combustion engine that operates at varying temperatures, producing mechanical work or electricity. This type of engine operates in a closed cycle, which through the use of a hot and cold source expands and compresses a working fluid (air, helium or hydrogen, among the most common), thus providing the movement of a piston. It can operate with residual heat and also with the burning of any type of fuel (natural gas, diesel, gasoline, etc.). This technology has been outstanding for the development of hybrid systems that operate with biofuels (biogas and syngas) and with renewable energies, as for example, case of use of solar concentrators. This work aims to study the thermodynamic, economic and environmental performances of a Stirling system operating with a biogas and solar energy supply system, applied for the generation of decentralized electric energy. Studies are carried out on the thermodynamic aspects of the Stirling cycle, focusing on the operation and work of the engine. Technical analysis of the system is carried out using a biogas combustion chamber and using parabolic solar concentrator energy. In the final stage are analyzed and compared the economic and environmental aspects of the system activated by biogas and solar energy. The results showed that through the thermodynamic analysis by the Schmidt theory, a Stirling engine efficiency of 67% was obtained. From the economic analysis, it is evident that a greater number of hours of operation corroborates with economic viability. As for the environmental aspects, the ecological efficiency value of the Stirling engine operating biogas is 98.02%. In the case of the solar system using concentrator to power the Stirling engine, the ecological efficiency indicates is about 98%. It is concluded that the use of renewable sources, allow good levels of efficiency of electric power generation of systems using small Stirling motors, reducing levels of air pollution and contributing to the reduction of the greenhouse effect.

Motor Stirling

Biogás

Energia solar

Análise energética

Análise econômica

Análise ambiental

Stirling engine

Biogas

Solar energy

Energy analysis

Model Stirlingova motoru v PSCAD / Model of Stirling Engine in PSCAD

Gallo, Michal

January 2016

This dissertation about the Stirling engine deals with the history and formation of the heat engine. At the beginning of this work, fundamental parts and their functions are described, elucidating the principle of operation explained by the thermodynamic cycle and subsequently comparing the ideal and the real Stirling cycle and last but not least provides various modifications whilst describing their differences. The mathematical model of the Stirling engine is processed by Schmidth’s theoretical analysis and thereafter is created in PScad v46. The process of creating a model is shown in one of the chapters of this dissertation. The results were taken into account in the design of 3D models in Inventor Professional by Autodesk. The work concludes with the evaluation of the computational model and its functionality as well as the documentation of the 3D model.

FABRICATION AND TESTING OF A NONSTANDARD THIN-FILM HEAT FLUX SENSOR FOR POWER SYSTEM APPLICATIONS

Wilson, Scott Dean

January 2011

No description available.

Aerospace Engineering

Engineering

Mechanical Engineering

Technology

heat flux

heat transfer

thin film thermocouples

Stirling engine

Stirling Radioisotope Power System

heat addition

net heat input