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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
251

A comparison of the stresses in the crankshaft of an internal combustion engine as determined by using electrical resistance strain gages and by analytical methods

Mui, Billy Yick-Kwan January 1962 (has links)
In order to study the degree of accuracy with which the analytical methods used in crankshaft design would predict the actual operating stresses in the crankshaft of an internal combustion engine, electrical resistance strain gauges were applied to the accessible parts of the crankshaft of a single-cylinder gasoline engine to sense the actual operating strains. From the recorded strains the operating stresses were determined and were compared to the analytically determined stresses. Oscilloscope and camera were used as the indicating and recording instruments while simplified formulas were used in the calculations. Stresses at various engine speeds and engine loads were determined by both methods and were plotted in curves against engine speeds and crank angles. In the graphical comparisons, the stresses determined by using electrical resistance strain gages agreed well with the stresses obtained analytically. / Master of Science
252

The evaluation of a one-cylinder Delco gasoline engine as an accelerated lubricating oil test unit

Garvin, Clifton C. Jr. January 1947 (has links)
It is desirable to build a single one-cylinder testing engine capable of manipulation so that it can test lubricating oils for wear, corrosion and tendency to oxidation and detergency, and give reproducible results. The purpose of this investigation is three-fold: (1) To install the control accessories required for control of the engine test conditions, and assemble the one cylinder, two-stroke cycle engine as a unit to be used in conducting the tests, (2) To determine the breakdown characteristics of a solvent refined, asphalt base oil at varying conditions of temperature and load in the test engine, and (3) to correlate the breakdown characteristics of the oil with the performance of the test engine so as to rate the engine as a possible test unit for evaluation of lubricating oils. / Master of Science
253

The relative economic value of gasoline and kerosene as fuel for a heavy duty engine

Alvis, J. K. January 1930 (has links)
A high compression type engine operates far more satisfactorily on gasoline than on kerosene. Frequent oil changes are necessary when kerosene is used. When burning gasoline the engine operated on fuel-air mixtures varying from 1 - 17.5 to 1 - 7.48 by weight. The most economical ratio was 1 - 15.2, with the intake air at 135° F. The most powerful mixture was a ratio of 1 - 12.3*, and intake air at 86.2° F. Kerosene mixtures varied. from 1 - 7.41 to 1 - 16.75. Greatest economy was secured on a mixture of 1 - 15.62, air intake at 134° F. The most power was developed from kerosene on a mixture of 1 - 13.3*, and an air temperature of 80° F. The efficiency of the engine on the most powerful mixtures was 19.75% for gasoline at 23.05 H.P.,and 25.7% for kerosene at 22.85 H.P. The engine developed as much power from a pound of kerosene as from a pound of gasoline. Gasoline and kerosene require practically the same external conditions for optimum operation. Kerosene does not deposit a great deal more carbon than gasoline. Heat added to the intake air gives greater engine economy, but at the same time decreases its capacity. 135° F. gave the most economy in both fuels. Hot air and lean mixtures makes the engine knock on gasoline. The engine knocked with kerosene at all heats on practically all mixtures. Speed above 1350 R.P.M.,and low water temperatures *Average of three mixtures used on power curve. minimize the “pinging” The outlet water must be kept above 180° F when burning kerosene. Oil “stands up” better while burning gasoline. Nine gallons of kerosene produce power equivalent to that produced by ten gallons of gasoline. / M.S.
254

A comprehensive methodology to analyse the Global Energy Balance in Reciprocating Internal Combustion Engines

Carreño Arango, Ricardo 02 November 2016 (has links)
[EN] The main objective of this doctoral thesis is the development of a comprehensive methodology to perform and analyse the thermal balance of reciprocating engines, based on experimental and theoretical techniques. Starting from previous works carried out in the research group, which are related to combustion diagnosis and thermal management, a methodology to analyse the thermal balance from two points of view was proposed: on the one hand, the external point of view, mainly based on experimental measurements, and on the other hand, the internal point of view, based on modelling. The combination of both approaches allows the necessary model adjustment, along with a detail characterization of the different energy flows. Apart from the thermal balance methodology, several proposals to model some internal processes have been provided, being noteworthy the sub-models for heat transfer to the chamber walls, the ports and between the oil and coolant. Besides, detailed mechanical losses model was also developed. With the aim of ensuring the models reliability and robustness, an integral uncertainty adjustment methodology is proposed, which allows determining some parameters affecting the thermodynamic properties within the chamber and the sub-models adjustment. The analysis and calibration methodology is flexible enough to be applied in different types of engines and combustion modes, thus ensuring its generality. To demonstrate the methodology potential, it is finally applied to analyse specific parametric studies in two engines, showing its usefulness for both diagnostic and predictive applications. / [ES] El objetivo principal de la presente tesis doctoral es el desarrollo de una metodología integral que permita analizar el balance de energía en motores de combustión interna alternativos, mediante la combinación de diferentes técnicas experimentales y teóricas. Para ello, partiendo de varios trabajos previos realizados en el grupo de investigación en temas relacionados con diagnóstico de la combustión y gestión térmica del motor, se ha propuesto una separación del análisis energético en dos puntos de vista: exterior, basado principalmente en medidas experimentales e interior, fundamentalmente basado en modelado. La combinación de ambos enfoques permite el necesario ajuste de los modelos, así como la caracterización completa y fiable de los flujos de energía en el motor. Junto a la metodología del balance energético, se han aportado una serie de propuestas para el modelado de diferentes procesos internos, entre los que destacan los modelos de transmisión de calor a las paredes de la cámara de combustión, a las pipas y entre el aceite y el refrigerante, así como un modelo detallado de pérdidas mecánicas. Con el fin de garantizar la robustez y fiabilidad de dichos modelos, se ha propuesto una metodología de ajuste de incertidumbres que permite obtener el valor de varios parámetros que afectan al cálculo de las condiciones termodinámicas en la cámara, así como el ajuste de los diferentes modelos propuestos. La metodología de análisis y calibración es suficientemente flexible para ser aplicada a motores de características y modos de combustión diferentes, asegurando así la generalidad de la herramienta. Para mostrar su potencial, se ha aplicado a dos motores en estudios paramétricos específicos, verificándose su utilidad como herramienta tanto de diagnóstico como para su uso en aplicaciones predictivas. / [CA] L'objectiu principal de la present tesi doctoral és el desenrotllament d'una metodologia integral que permeta analitzar el balanç d'energia en motors de combustió interna alternatius, per mitjà de la combinació de diferents tècniques experimentals i teòriques. Per a això, partint de diversos treballs previs realitzats en el grup d'investigació en temes relacionats amb diagnòstic de la combustió i gestió tèrmica del motor, s'ha proposat una separació de l'anàlisi energètica en dos punts de vista: exterior, basat principalment en mesures experimentals i interior, fonamentalment basat en modelatge. La combinació d'ambdós enfocaments permet el necessari ajust dels models, així com la caracterització detallada dels diferents fluxos energètics. Junt amb la metodologia del balanç energètic, s'han aportat una sèrie de propostes per al modelatge de diferents processos interns, entre els que destaquen els models de transmissió de calor a les parets de la cambra de combustió, a les pipes i entre l'oli i el refrigerant, així com un model detallat de pèrdues mecàniques. A fi de garantir la robustesa i fiabilitat dels dits models, s'ha proposat una metodologia integral d'ajust d'incerteses que permet obtindre el valor de diversos paràmetres que afecten el càlcul de les condicions termodinàmiques en la cambra, així com l'ajust dels diferents models proposats. La metodologia d'anàlisi i calibratge és prou flexible per a ser aplicada a motors de característiques i modes de combustió diferents, assegurant així la generalitat de la ferramenta. Per a mostrar el seu potencial, finalment s'ha aplicat a dos motors en estudis paramètrics específics, verificant la seua utilitat tant com a ferramenta de diagnòstic com en aplicacions predictives. / Carreño Arango, R. (2016). A comprehensive methodology to analyse the Global Energy Balance in Reciprocating Internal Combustion Engines [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/73069
255

Tradeoff between internal combustion engined vehicles and electric vehicles in Hong Kong

Chan, Sau-ha., 陳秀霞. January 1995 (has links)
published_or_final_version / Environmental Management / Master / Master of Science in Environmental Management
256

Acionamento de máquinas de fluxo por motores de combustão interna a gás natural / The driving of flow machines by natural gas internal combustion engines

Mello Junior, Antonio Gonçalves de 06 November 2006 (has links)
O acionamento das máquinas de fluxo, sobretudo as bombas e ventiladores centrífugos, têm no motor elétrico seu principal meio de força motriz. O motor assíncrono, também denominado de motor de indução, é o mais utilizado para esse tipo de acionamento. O presente trabalho mostra as diversas alternativas para avaliar a viabilidade de utilização, em alguns casos, do motor de combustão interna substituindo o motor elétrico para acionamento de algumas máquinas de fluxo. As vantagens na utilização do gás natural como energia final, aliada a evolução tecnológica do motor de combustão interna para uso desse combustível, podem fornecer boas condições na escolha alternativa de acionamento. Certos fatores, tais como razão entre o preço do gás natural e o preço da energia elétrica para cada setor de consumo; o alto investimento para a aquisição do motor de combustão interna a gás natural e o aproveitamento para cogeração, são levados em consideração nas análises do presente trabalho. O aproveitamento do rejeito térmico dos gases de combustão do motor e da água de refrigeração do mesmo contribui favoravelmente para a utilização do motor de combustão interna a gás natural. A análise econômica, que permite a comparação entre os dois sistemas de acionamento de cada caso estudado, é também apoiada com a utilização da termoeconomia. / The driving of flow machines, above all centrifugal pumps and fans, have in electrical motor its main resource of driving power. Asynchrony motor, also called induction motor is the most used for that driving type. The present work shows the several ways for measuring the viability of the replacement of electric motor, in some cases, by the natural gas internal combustion engines driving flow machines. The advantages of employing natural gas, allied to the technological evolution of the internal combustion engine for use of that fuel, can produce good conditions for that drive alternative. Certain factors, such as the ratio between the current price of natural gas and the price of the electric power for each consumption sector; the high investment for the acquisition of natural gas internal combustion engine, as well as the use of this gas for cogeneration are factors to be considered in the analysis performed in this work. The reuse of combustion engines exhaust gas and of cooling system waters may successfully contribute for the choice of natural gas internal combustion engine. Economical analysis, which provides a comparison between the two kinds of driving systems investigate here, can also be supported by employing thermoeconomics tools.
257

Avaliação do desgaste em cilindros de motores de combustão interna - mapeamento de mecanismos e quantificação do desgaste. / Analysis of wear in cylinder bores from internal combustion engines: the assessment of wear mechanisms and quantification.

Obara, Rafael Brisolla 19 March 2018 (has links)
O sistema tribológico anel/cilindro é considerado de elevada complexidade. Condições de regime de lubrificação limítrofe, mista e hidrodinâmica se intercalam devido às cargas alternadas e velocidades variáveis do sistema. As elevadas temperaturas envolvidas e a presença de substâncias corrosivas e de outros contaminantes também contribuem para a ocorrência de diferentes intensidades e mecanismos de desgaste ao longo do cilindro. Apesar dos significativos avanços na avaliação do desgaste em cilindros de motores, algumas questões permanecem em aberto, tais como: Quais são os principais causadores do desgaste por abrasão em motores flex-fuel? Quais são os principais mecanismos de endurecimento atuantes em cilindros de motores flex-fuel? É possível que o ponto morto superior (PMS) não seja a região do cilindro com maior desgaste? É possível estimar o desgaste de cilindros de motores considerando apenas alterações topográficas em nível de rugosidade? O folded metal pode afetar significativamente o desgaste de cilindros de motores? Como este defeito é formado? Estas e outras perguntas são respondidas ao longo deste trabalho. Para tanto, o presente trabalho avalia o desgaste em cilindros de motores de combustão interna por meio de duas vertentes, sendo elas: o mapeamento de modos e mecanismos de desgaste e a quantificação do desgaste via perda volumétrica. Além disso, são investigadas eventuais causas de intensificação do desgaste e possíveis modos de minimização do desgaste. Os efeitos das alterações topográficas decorrentes do desgaste no desempenho do motor também são analisados. O método da perfilometria óptica foi utilizado nas análises de quantificação do desgaste com o propósito de avaliar a perda volumétrica de material em diferentes regiões do cilindro. Para tanto, dez diferentes métodos para estimativa de desgaste foram propostos. Embora a maior parte dos trabalhos publicados utilize os vales como altura de referência para comparação entre superfícies antes e após o desgaste, o presente trabalho mostrou que melhores resultados para estimativa de desgaste de cilindros com acabamento do tipo plateau honing podem ser obtidos utilizando-se a altura correspondente ao Smr2 como referência absoluta. Contudo, a mesma altura de referência não apresentou resultados satisfatórios na quantificação de desgaste em cilindros com acabamento do tipo standard honing. Deste modo, constatou-se que a escolha do melhor método para estimativa do desgaste via perda volumétrica é altamente dependente do acabamento do cilindro. Verificou-se também no trabalho que os principais mecanismos de desgaste atuantes nos cilindros do motor flex-fuel são desgaste por abrasão e por reações triboquímicas, com participação menos expressiva de desgaste por fadiga de contato e por adesão. Neste mesmo motor, verificou-se também que o desgaste por abrasão ocorreu principalmente devido à ação abrasiva de debris e/ou pela interação direta entre anel e cilindro, sendo que os produtos de combustão tiveram menor importância. Contudo, fatores como mau funcionamento do motor ou acabamento do cilindro podem afetar na contribuição da ação de resíduos do processo de combustão sobre o desgaste abrasivo total do cilindro. Verificou-se que o desgaste de cilindros de motores ocorre preferencialmente nas bordas dos sulcos de brunimento, de modo que a redução da quantia de folded metal pode contribuir significativamente para a redução do desgaste. Estudou-se também o efeito dual da grafita: como lubrificante sólido (o que contribui para a diminuição de atrito e desgaste do cilindro) e como concentradora de tensões (o que contribui para o aumento do desgaste). Além disso, verificou-se que grafitas também podem contribuir para o surgimento do defeito folded metal. Assim, sugere-se que a morfologia da grafita pode ser alterada de modo a se obter não apenas um material com maior resistência à fadiga, mas também uma superfície com menos defeitos superficiais e, consequentemente, com menor propensão ao desgaste. Constatou-se também que o tipo de óxido formado na superfície do cilindro pode afetar consideravelmente sua taxa de desgaste e, portanto, dependendo da composição do cilindro e das condições operacionais do motor, é possível que o PMS não seja a região do cilindro com desgaste mais acentuado. O trabalho também mostrou que os mecanismos de endurecimento atuantes em cilindros de motores flex-fuel são decorrentes de recristalização com refino de grão e encruamento. Finalmente, verificou-se por meio de simulações computacionais que o alisamento da topografia do cilindro (resultante do processo de desgaste) tende a aumentar o coeficiente de atrito na região de meio de curso do pistão e a diminuí-lo nos pontos de reversão. / The tribological system piston ring/cylinder bore is considered to be of high complexity. Due to the presence of alternate loads and variable speeds, boundary, mixed and hydrodynamic lubrication regimes occur at each stroke of the engine. High temperature and corrosive substances also contribute to the occurrence of different wear intensities and mechanisms in cylinder bores. Despite significant advances in the wear assessment of cylinder bores, some issues still remain, like: What are the main causes of abrasion in cylinder bores from flex-fuel engines? What are the main strengthening mechanisms in cylinder bores from flex-fuel engines? Is it possible that the top dead center (TDC) of the engine is not the region with highest wear? Is it possible to estimate wear of cylinder bores considering just topographic changes in roughness level? Can folded metal significantly affect the amount of wear in cylinder bores? How is this defect generated? These and other questions will be answered in this work. Therefore, the present work is focused on the analysis of wear in cylinder bores based upon two different approaches: the assessment of wear modes and mechanisms and the quantification of wear volume losses. Also, possible causes of wear intensification and possible ways of minimizing wear in cylinder bores will be investigated. The effects of topographic changes due to wear in engine performance will also be analyzed. The method of optical profilometry was used in the wear quantification of cylinder bores to assess wear volume losses in different regions of the cylinder. Therefore, ten different methods for wear estimation were proposed. Although most publications consider valleys as the reference height for comparison between surfaces before and after wear, the present work has shown that better results for wear estimation of plateau honed cylinder bores can be obtained by using the height corresponding to the Smr2 as absolute reference. However, the same reference height did not present satisfactory results in the wear quantification of cylinder bores honed with a standard honing. Therefore, this work has shown that the choice of the best method for wear estimation based on wear volume losses is highly dependent upon the cylinder bore surface finish. In this work, it was also verified that the main wear mechanisms in cylinder bores from flex-fuel engines are abrasion and tribochemical reaction, with less significant contribution of fatigue and adhesive wear. In the same engine, it was verified that abrasive wear was more affected by wear debris and/or by two body abrasion than from combustion products. However, some factors, like engine malfunction or cylinder bore surface finish can affect the contribution of residues from the combustion process in the total abrasive wear of the cylinder. It was also verified that wear occurs preferentially at the edges of honing grooves, so that the reduction in the amount of folded metal can significantly contribute to the wear reduction in cylinder bores. The dual effect of graphite was also studied: as solid lubricant (which contributes to decrease friction and wear) and as stress concentrator (which contributes to increase wear). Also, it was verified that graphite can contribute to the occurrence of folded metal. Therefore, it is suggested that graphite morphology can be changed in order to obtain not only higher fatigue life, but also a cylinder finish with lower amount of honing defects and, therefore, less prone to wear. The present work has also verified that the oxide composition in the cylinder surface can considerably affect its wear rate and, therefore, depending on cylinder chemical composition and engine operating conditions, it is possible that the TDC is not the region of the cylinder with the highest wear rates. It was also noticed that the strengthening mechanisms in cylinder bores from flex-fuel engines are resulting from recrystallization with grain refinement and strain hardening. Finally, it was verified by computational simulations that the surface smoothing of the cylinder (from engine wear) tends to increase the coefficient of friction (COF) in the middle region on the cylinder and to decrease it in top and bottom dead centers.
258

Projeto e otimização de árvores de manivelas. / Design and optimization of crankshafts.

Ferreira, Pedro Henrique Ribeiro 14 April 2008 (has links)
O presente trabalho objetivou ilustrar procedimentos de analise auxiliada por computador e metodologia de desenvolvimento para arvores de manivela tendo-se como meta sugestões de boas praticas de projeto visando a otimização de componentes segundo necessidades ditadas pelos clientes, competidores e legislações vigentes. Ilustrou-se uma lista das etapas principais do projeto e desenvolvimento de virabrequins com foco na analise dinâmica e estrutural do componente. Para estas etapas especificas, resumiu-se a teoria básica envolvida nos cálculos e analises necessários e, para casos de abordagens consagradas distintas na resolução de um mesmo problema, realizou-se uma comparação de precisão e custo envolvidos. Posteriormente, aplicou-se o conjunto de ferramentas analisadas em um estudo de caso com uma arvore de manivelas de quatro cilindros em linha, obtendo-se o desempenho estrutural e dinâmico do componente seguido de uma otimização paramétrica. Observou-se um potencial de ganho de precisão desde o calculo do carregamento aplicado no componente a otimização do mesmo, com o uso de métodos clássicos aplicados a nova tecnologia de software e hardware disponível. Concluiu-se que a organização adequada e utilização específica das ferramentas disponíveis trazem benefícios expressivos na qualidade dos resultados, melhor utilização dos recursos disponíveis e visão global do vinculo de diferentes parâmetros de desempenho. / In the current dissertation it was aimed to illustrate procedures regarding computer aided analysis and methodology for development of crankshafts seeking best practices suggestions to design and focusing on component optimization. These methods must adequate component design to customer, competitors and laws demands. Main development and design tasks for crankshafts were shown centering attention on dynamic and structural analysis. The basic needed theory for these specific tasks with calculus and analyses was summarized and, when more than one common approach was applicable, a cost and precision comparison was performed. Afterward, these tools were applied in a case study where main performance parameters for an inline four cylinder engine crankshaft were obtained. The component was analyzed structurally and dynamically for a subsequent parametric optimization. A potential benefit in precision was observed from applied loads calculation to the mentioned optimization by using available classic methods and modern software and hardware technology mutually. It was concluded that, with an adequate project organization and specific usage of available methods, expressive results can be obtained in results quality, best resources employment and general understanding of performance parameters links.
259

Acionamento de máquinas de fluxo por motores de combustão interna a gás natural / The driving of flow machines by natural gas internal combustion engines

Antonio Gonçalves de Mello Junior 06 November 2006 (has links)
O acionamento das máquinas de fluxo, sobretudo as bombas e ventiladores centrífugos, têm no motor elétrico seu principal meio de força motriz. O motor assíncrono, também denominado de motor de indução, é o mais utilizado para esse tipo de acionamento. O presente trabalho mostra as diversas alternativas para avaliar a viabilidade de utilização, em alguns casos, do motor de combustão interna substituindo o motor elétrico para acionamento de algumas máquinas de fluxo. As vantagens na utilização do gás natural como energia final, aliada a evolução tecnológica do motor de combustão interna para uso desse combustível, podem fornecer boas condições na escolha alternativa de acionamento. Certos fatores, tais como razão entre o preço do gás natural e o preço da energia elétrica para cada setor de consumo; o alto investimento para a aquisição do motor de combustão interna a gás natural e o aproveitamento para cogeração, são levados em consideração nas análises do presente trabalho. O aproveitamento do rejeito térmico dos gases de combustão do motor e da água de refrigeração do mesmo contribui favoravelmente para a utilização do motor de combustão interna a gás natural. A análise econômica, que permite a comparação entre os dois sistemas de acionamento de cada caso estudado, é também apoiada com a utilização da termoeconomia. / The driving of flow machines, above all centrifugal pumps and fans, have in electrical motor its main resource of driving power. Asynchrony motor, also called induction motor is the most used for that driving type. The present work shows the several ways for measuring the viability of the replacement of electric motor, in some cases, by the natural gas internal combustion engines driving flow machines. The advantages of employing natural gas, allied to the technological evolution of the internal combustion engine for use of that fuel, can produce good conditions for that drive alternative. Certain factors, such as the ratio between the current price of natural gas and the price of the electric power for each consumption sector; the high investment for the acquisition of natural gas internal combustion engine, as well as the use of this gas for cogeneration are factors to be considered in the analysis performed in this work. The reuse of combustion engines exhaust gas and of cooling system waters may successfully contribute for the choice of natural gas internal combustion engine. Economical analysis, which provides a comparison between the two kinds of driving systems investigate here, can also be supported by employing thermoeconomics tools.
260

Numerical simulation of flows in an active air intake device of internal combustion engine with pulsated air flow / Simulation numérique des écoulements au niveau d’un système d’admission d’air actif de moteur à combustion interne en présence d’un débit d'air pulsé

Kumar, Deepak 13 February 2018 (has links)
Les émissions polluantes à l’échappement des véhicules automobiles sont l'une des principales sources de pollution de l'air dans le monde d'aujourd'hui. Par conséquent, la législation a évolué afin de limiter ces émissions. L'un des aspects clés pour répondre consiste à bien maîtriser les échanges gazeux au sein du moteur à combustion interne. Cette amélioration est possible par l'optimisation de répartiteurs d'admission d'air. Dans ces répartiteurs d'admission d'air, la maitrise de l’écoulement de type tumble est une piste de progrès. Des volets sont installés à la sortie du répartiteur afin d'améliorer le rapport de tumble et donc le mélange air-carburant (VTS-Variable Tumble System). Une autre caractéristique de l'écoulement à l'intérieur des répartiteurs est l'effet des écoulements pulsés qui engendrent des fluctuations de pression assez importante. Par conséquent, le but de cette étude consiste à simuler le flux d'air pulsé à l'intérieur des répartiteurs d'admission et à identifier l'effet des pulsations de pression sur les composants actifs tels que les volets. Le travail de simulation dans la présente thèse a été effectué à partir du code open source CFD OpenFOAM. Dans un premier temps, l'effet des pulsations de pression est simulé à l'intérieur d'un tube d'acier et une méthodologie de simulation est développée. Les résultats de la simulation sont validés à partir de résultats expérimentaux obtenus sur un dispositif spécifique, le banc dynamique. Ensuite, des simulations ont été effectuées sur le répartiteur d'admission principal avec des volets. Tout d’abord, les simulations sont effectuées en régime permanent avec cinq positions d'ouverture différentes du clapet. Les forces et les moments agissant sur le volet en régime permanent sont obtenus et analysés. Puis, des simulations en régime transitoire avec des effets de pulsation de pression sont effectuées. Les résultats de la simulation instationnaire sont comparés aux résultats expérimentaux en termes de fluctuations de pression relative. Les effets des pulsations de pression sur les forces aérodynamiques et les moments agissant sur les volets sont analysés et commentés. / The exhaust emissions from automobiles are one of the major sources of air pollution in today’s world. Thence,research and development is the key feature of the modern automotive industries to meet strict emission legislation. One of the key aspects to meet these requirements is to improve the gas exchange process within internal combustion engines. It is possible by the design optimization of the air intake manifolds for internal combustion engines. One of such advancement in air intake manifolds is variable tumble systems (VTS). In VTS system, tumble flaps are installed at the exit of the manifold runner in order to improve tumble ratio and hence air-fuel mixing. Another feature of the flow inside the intake manifolds is pressure pulsation effect. Therefore, the aim of the Ph.D. work is to simulate the pulsating air flow inside the air intake manifolds and to identify the effect of the pressure pulsations on the active components like tumble flaps. The simulation work in the present thesis has been carried out on open source CFD code OpenFOAM. In a first step, the effect of pressure pulsations is simulated inside a steel tube and a simulation methodology is developed. The results of the simulation are validated on a specific experimental device, the dynamic flow bench. Then,simulations have been carried out on the main intake manifold with tumble flaps. Firstly, the simulations are performed with five different opening positions of the tumble flap in a steady state configuration. The forces and moments acting on the flap in steady state are obtained and analyzed. Then, unsteady simulations with pressure pulsation effects are performed. The results of obtained from unsteady simulation are compared with the experimental results in terms of relative pressure fluctuations. The effect of the pressure pulsation on the aerodynamic forces and moments acting on the tumble flaps are analyzed and explained.

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