Global ETD Search

291	[pt] DESENVOLVIMENTO DE PARÂMETROS DE FLUXO DE QUANTIDADE DE MOVIMENTO E ANÁLISE DE ESTABILIDADE DO MODELO DE DOIS-FLUIDOS 1D PARA ESCOAMENTO ANULAR VERTICAL / [en] DEVELOPMENT OF MOMENTUM FLUX PARAMETERS AND STABILITY ANALYSIS OF A 1D TWO-FLUID MODEL FOR VERTICAL ANNULAR FLOWS RODRIGO LUIS FORMOSINHO CASTELLO BRANCO 03 June 2022 (has links) [pt] O modelo de Dois-Fluidos 1D vem sendo usado de forma abrangente em simulações industriais para prever escoamentos bifásicos em dutos. Avanços recentes na metodologia de Regime Capturing permitem a detecção das transições entre padrões de escoamento através do crescimento de instabilidades interfaciais. Contudo, devido aos procedimentos de média necessários para a redução da dimensionalidade do problema, perdas de informação tornam o modelo mal posto, i.e., perturbações de comprimentos de onda curtos são amplificados a taxas ilimitadas e soluções não físicas são obtidas. Relações de fechamento possuem um papel chave nesse problema, uma vez que estas são necessárias para fechar o sistema 1D e reintroduzem os mecanismos físicos perdidos que podem estabilizar o escoamento e tornar o modelo bem-posto. O presente trabalho propõe um modelo para o parâmetro de fluxo de quantidade de movimento da fase líquida (ou fator de forma), baseado na distribuição da velocidade do filme, que depende das grandezas locais do escoamento. A Teoria de Estabilidade Linear (LST) pode ser usada para avaliar a influência dos parâmetros de fechamento no crescimento de perturbações e na hiperbolicidade do modelo. A abordagem viscosa da análise de estabilidade diferencial de Kelvin-Helmholtz e a análise discreta de von Neumann são realizadas para avaliar relações de fechamento comumente utilizadas na literatura, bem como as formulações propostas para o parâmetro de fluxo. Simulações numéricas são realizadas, e relações de dispersão numéricas são extraídas dos resultados para verificar as previsões com os dados da LST. Uma avaliação numérica rigorosa dos novos modelos do parâmetro de fluxo com um grande banco de dados experimental é realizada. Os resultados mostraram que as correlações propostas superam os valores padrão constantes de fator de forma para avaliações de gradiente de pressão e espessura do filme de líquido. Os modelos também mostraram melhor consistência ao longo do extenso banco de dados. / [en] The 1D Two-Fluid model has been widely used in industrial simulations to predict two-phase flows in pipelines. Recent advances of the Regime Capturing methodology allow for the detection of flow pattern transitions from the onset and development of interfacial instabilities. However, due to the averaging processes required to reduce the dimensionality of the problem, the loss of information renders the model ill-posed, i.e., short wavelengths disturbances are amplified at an unbounded rate and unphysical solutions are obtained. Closure relations play a key role in this problem, since they are required to close the 1D system. Further, the reintroduction of the missing physics may stabilize the flow and render the model well-posed. The present work proposes a model for the liquid momentum flux parameter based on the liquid film velocity profile that is dependent on the local flow quantities. Linear Stability Theory (LST) can be used to assess the influence of closure parameters in the growth of disturbances and to evaluate the hyperbolicity of the model. A viscous approach of the differential Kelvin-Helmholtz and a discrete von Neumann stability analyses are performed to evaluate commonly employed closure models and the proposed formulations for the liquid momentum flux parameter. Numerical simulations are performed, and numerical dispersion relations are extracted from the results to verify the predictions against LST data. A rigorous numerical evaluation of the novel momentum flux parameter models against a large experimental database taken from the literature is carried out. Results show that the proposed models outperform the standard constant 𝐶𝐿 values for both pressure drop and liquid film thickness. The models also showed better overall consistency throughout the extensive experimental database. [pt] MODELO DE DOIS FLUIDOS 1D [en] 1D TWO-FLUID MODEL [pt] ESCOAMENTO ANULAR VERTICAL [pt] PARAMETRO DE FLUXO DE MOMENTUM [en] MOMENTUM FLUX PARAMETERS [pt] AVALIACAO DE RELACOES DE FECHAMENTO [en] EVALUATION OF CLOSING RELATIONSHIPS [pt] ANALISE DE ESTABILIDADE [en] STABILITY ANALYSIS
292	The Effect of Amplitude Control and Randomness on Strongly Coupled Oscillator Arrays Jiang, Hai 20 November 2009 (has links) No description available. Electrical Engineering Coupled Oscillator Array Phased Array Amplitude Control Dynamic Analysis Stability Analysis Transient Analysis Robust Analysis Effects of Amplitude Dynamics Error of Main Beam Steering Angle Strong Coupling Monte Carlo Simulation.
293	[pt] ESTABILIDADE DE ENCOSTA NÃO SATURADA DO CAMPUS DA PUC-RIO NA GÁVEA / [en] UNSATURATED SLOPE STABILITY OF THE PUC-RIO CAMPUS IN GAVEA JOAO VICENTE FIGUEIRA L DE MENEZES 30 April 2020 (has links) [pt] No estado do Rio de Janeiro, os movimentos de massa em encostas passaram a representar um dos problemas mais importantes em geotecnia devido ao seu relevo acidentado, forma de ocupação e condições climáticas rigorosas. Visando identificar uma alternativa para avaliar encostas usando métodos não invasivos que possibilitem o trabalho em locais de difícil acesso, com rapidez e aquisição contínua de dados, neste trabalho é exposto uma análise teórica e prática deste processo de avaliação utilizando métodos geofísicos e o monitoramento contínuo da água no solo por meio de sensores. Os levantamentos geofísicos com uso do georadar e da análise multicanal de ondas superficiais para investigação da estratigrafia da encosta estudada, possibilitaram a identificação de três camadas: solo maduro, solo residual jovem e rocha. Para o monitoramento contínuo, são usados sensores de umidade volumétrica, sucção e um pluviômetro durante um período de 6 meses com a coleta de dados a cada 10 minutos. Com a interpretação dos dados coletados, verificou-se uma boa funcionalidade do monitoramento para avaliar as respostas de sucção e umidade volumétrica ao longo de períodos com intervalos irregulares de chuva. Os dados de precipitação e estratigrafia identificados são usados nas análises de infiltração e estabilidade saturada e não saturada, que possibilitaram a identificação de seções críticas com fator de segurança abaixo de 1,5, onde são necessárias intervenções para garantir a segurança da vizinhança. / [en] In the state of Rio de Janeiro, mass movements on slopes have become one of the most important geotechnical problems due to their rugged terrain, occupation and harsh weather conditions. In order to identify an alternative to evaluate slopes using non-invasive methods that enable work in hard to reach places, with rapid and continuous data acquisition, this paper presents a theoretical and practical analysis of this evaluation process using geophysical methods and continuous monitoring ground water through sensors. Geophysical surveys using georadar and multichannel analysis of surface wave to investigate the stratigraphy of the studied slope, allowed the identification of three layers: mature soil, young residual soil and rock. For the continuous monitoring, volumetric humidity and suction sensors and a rain gauge are used for a period of 6 months with data collection every 10 minutes. With the interpretation of the collected data, a good monitoring functionality was verified to evaluate the suction and volumetric humidity responses during periods with irregular rain intervals. The identified precipitation and stratigraphy data are used in the infiltration and saturated stability analyzes, which allowed the identification of critical sections with safety factor below 1.5, where interventions are necessary to ensure the safety of the neighborhood. [pt] SOLO NAO SATURADO [pt] MASW [pt] MONITORAMENTO DE CAMPO [pt] ANALISE DE INFILTRACAO [pt] EFEITOS DE CHUVAS INTENSAS [pt] ANALISE DE ESTABILIDADE [pt] SUCCAO [pt] GPR [en] UNSATURATED SOIL [en] MASW [en] FIELD MONITORING [en] HEAVY RAIN EFFECTS [en] STABILITY ANALYSIS [en] SUCTION [en] GPR
294	Adaptive Controller Development and Evaluation for a 6DOF Controllable Multirotor Furgiuele, Theresa Chung Wai 03 October 2022 (has links) The omnicopter is a small unmanned aerial vehicle capable of executing decoupled translational and rotational motion (six degree of freedom, 6DOF, motion). The development of controllers for various 6DOF controllable multirotors has been much more limited than development for quadrotors, which makes selecting a controller for a 6DOF multirotor difficult. The omnicopter is subject to various uncertainties and disturbances from hardware changes, structural dynamics, and airflow, making adaptive controllers particularly interesting to investigate. The goal of this research is to design and evaluate the performance of various position and attitude controller combinations for the omnicopter, specifically focusing on adaptive controllers. Simulations are first used to compare combinations of three position controllers, PID, model reference adaptive control, augmented model reference adaptive control (aMRAC), and four attitude controllers, PI/feedback linearization (PIFL), augmented model reference adaptive control, backstepping, and adaptive backstepping (aBack). For the simulations, the omnicopter is commanded to point at and track a stationary aim point as it travels along a $C^0$ continuous trajectory and a trajectory that is $C^1$ continuous. The controllers are stressed by random disturbances and the addition of an unaccounted for suspended mass. The augmented model reference adaptive controller for position control paired with the adaptive backstepping controller for attitude control is shown to be the best controller combination for tracking various trajectories while subject to disturbances. Based on the simulation results, the PID/PIFL and aMRAC/aBack controllers are selected to be compared during three different flight tests. The first flight test is on a $C^1$ continuous trajectory while the omnicopter is commanded to point at and track a stationary aim point. The second flight test is a hover with an unmodeled added weight, and the third is a circular trajectory with a broken blade. As with the simulation results, the adaptive controller is shown to yield better performance than the nonadaptive controller for all scenarios, particularly for position tracking. With an added weight or a broken propeller, the adaptive attitude controller struggles to return to level flight, but is capable of maintaining steady flight when the nonadaptive controller tends to fail. Finally, while model reference adaptive controllers are shown to be effective, their nonlinearity can make them difficult to tune and certify via standard certification methods, such as gain and phase margin. A method for using time delay margin estimates, a potential certification metric, to tune the adaptive parameter tuning gain matrix is shown to be useful when applied to an augmented MRAC controller for a quadrotor. / Doctor of Philosophy / The omnicopter is a small unmanned aerial vehicle capable of executing decoupled translational and rotational motion. The development of controllers for these types of vehicles has been limited, making controller selection difficult. The omnicopter is subject to variations in hardware and airflow, making adaptive controllers particularly interesting to investigate. The goal of this research is to design and compare the performance of various position and attitude controller combinations for the omnicopter, specifically focusing on adaptive controllers. Simulations are first used to compare combinations of several position and attitude controllers on various trajectories and disturbances. Simulation results showed that a fully adaptive controller combination produced the best trajectory tracking while subject to disturbances. As with the simulation results, flight tests showed the adaptive controller yields better performance than the nonadaptive controller for all scenarios, particularly for position tracking. Finally, while the adaptive position controller was shown to be effective, it is difficult to tune and certify for widespread use. A method for using time delay margin estimates, a potential certification metric, to tune the adaptive controller is shown to be useful when applied to an adaptive controller for a quadrotor. adaptive control model reference adaptive control adaptive backstepping control UAV/UAS omnicopter 6DOF controllable multirotor quadcopter time delay margin estimation control tuning matrix measure bounded linear stability analysis Pixhaw
295	Analyse de la stabilité d'un système d'équations différentielles à délais modélisant la régulation de cellules sanguines Desrochers, Steven 12 1900 (has links) Les cellules sanguines jouent un rôle fondamental dans le bon fonctionnement du corps et sont régulées de manière à répondre à ses besoins immédiats. Malgré leurs fonctions distinctes, plusieurs études suggèrent que les processus de régulations des globules rouges et des plaquettes sanguines interagissent entre eux, notamment par l'intervention d'hormones. On s'intéresse ici aux interactions conceptuelles entre ces deux familles de cellules sanguines à l'aide d'un modèle de deux équations différentielles à délais couplées. L'analyse de la distribution des valeurs propres de l'équation caractéristique du modèle linéarisé permet de dresser un portrait de stabilité de l'équilibre du système dans un plan de paramètre approprié. On s'intéresse notamment aux possibilités de déstabilisation et de restabilisation par le couplage des deux équations. L'analyse des diagrammes de stabilité pour ces différents cas de figure permet de mettre en évidence des dynamiques intéressantes comme des alternances de stabilité par l'action des délais et différents types de bifurcations déstabilisatrices de l'équilibre. / Blood cells play a fundamental role in the proper functioning of the body and are regulated to respond to its immediate needs. Despite their distinct functions, several studies suggest that the regulatory processes of red blood cells and blood platelets interact with each other, notably through the intervention of hormones. We aim to study the conceptual interactions between these two families of blood cells using a coupled two-delay differential equation model. The analysis of the distribution of eigenvalues of the characteristic equation of the linearized model allows us to outline a stability portrait of the system in a suitable parameter plane. We are particularly interested in exploring the possibilities of destabilization and restabilization through the coupling of the two equations. The analysis of stability diagrams for these different scenarios highlights interesting dynamics such as stability switches due to the influence of delays and various types of destabilizing bifurcations of the equilibrium. Hématopoïèse Globules rouges Plaquettes sanguines Équations différentielles à délais Analyse de stabilité Bifurcation Hematopoiesis Red blood cells Blood platelets Delay differential equations Stability analysis bifurcation
296	[pt] ANÁLISE DA DINÂMICA NÃO LINEAR DE UMA BANCADA EXPERIMENTAL DE UMA COLUNA DE PERFURAÇÃO COM VIBRAÇÃO TORCIONAL INDUZIDA POR ATRITO / [en] NONLINEAR DYNAMIC ANALYSIS OF DRY FRICTION-INDUCED TORSIONAL VIBRATION IN A DRILL-STRING EXPERIMENTAL SET-UP BRUNO CESAR CAYRES ANDRADE 01 November 2018 (has links) [pt] Os últimos leilões do pré-sal para exploração e produção de petróleo e gás no Brasil indicam que as operações de perfuração se tornarão mais intensas nos próximos anos. O processo de perfuração rotativo é amplamente utilizado para alcançar os reservatórios de petróleo e devido à relação diâmetro/comprimento do sistema de perfuração, o modo de vibração torcional está presente em quase todos os processos de perfuração, podendo chegar a um estado crítico indesejável: o fenômeno de stick-slip. Com o intuito de abordar este problema, o modo torcional é isolado e o stick-slip é observado em uma coluna de perfuração em escala reduzida completamente instrumentada. Durante o stick-slip, outro torque pode ser aplicado em uma posição intermediária da bancada de teste. O modelo matemático de parâmetros concentrados é obtido e o modelo é comparado com dados experimentais com o propósito de verificar se o modelo matemático representa o aparato experimental. Uma análise de estabilidade é feita usando o modelo validado com o objetivo de identificar soluções estáveis do sistema. Com isso, observou-se que existe uma faixa do parâmetro de bifurcação na qual soluções de equilíbrio e periódicas estáveis coexistem. Para uma dada situação de stick-slip na faixa de biestabilidade, duas estratégias de mitigação de vibração torcional foram consideradas e consistiram em impor perturbações no sistema por meio do torque na posição intermediária da bancada de teste: (i) torques aplicados apenas contra a direção de movimento do sistema, e (ii) torques aplicados em ambas as direções. As estratégias foram testadas numericamente e apresentaram eficiência de tal modo que o stick-slip foi completamente mitigado: as energias do sistema e o trabalho gerado pelo torque intermediário aplicado foram comparados com o propósito de avaliar a factibilidade e razoabilidade da estratégia. Experimentalmente, o sistema continuou a oscilar, porém apresentou uma significante redução na fase de stick mesmo com limitações de aplicações de torque. / [en] The latter round bids of the pre-salt for exploration and production of oil and natural gas in Brazil indicate the drilling operations will become more intense in coming years. The rotational drilling process is largely used to reach the oil reservoirs and because of diameter-to-length ratio of the drilling system, torsional vibration mode is present in most all drilling processes and may reach an undesired severe stage: the stick-slip phenomenon. In order to address this problem, the torsional vibration mode is isolated and the stick-slip is observed in a fully instrumented drill-string experimental set-up in this work. During this phenomenon, another torque may be applied on an intermediate position of the test bench. The lumped parameter mathematical model is obtained and it is compared to experimental data to validate whether the mathematical model represents the experimental apparatus. A stability analysis is performed using the validated mathematical model in order to identify stable solutions of the system. Therewith, one observed that there is a range of the bifurcation parameter in which stable equilibrium and periodic solutions may coexist. For a given stick-slip situation in bi-stability range, two mitigation strategies of torsional vibration were considered which consisted of imposing perturbations in the system via torques on the intermediate position of the test bench: (i) torques applied only against the direction of motion of the system, and (ii) torques applied in both directions. The strategies were tested numerically and presented eficiency so that the stickslip was completely mitigated: the energies of the system and the work created by the intermediate torque were compared in order evaluate the feasibility and reasonableness of the strategy. Experimentally, the system continued to oscillate, however it presented a significant reduction of stick phase even with limitations of torque applications. [pt] ANALISE DE ESTABILIDADE [pt] DINAMICA DE COLUNAS DE PERFURACAO [pt] ESTRATEGIA DE MITIGACAO [pt] FENOMENO DE STICK-SLIP [pt] DINAMICA NAO LINEAR [en] STABILITY ANALYSIS [en] DRILL-STRING DYNAMICS [en] MITIGATION STRATEGY [en] STICK-SLIP PHENOMENON [en] NONLINEAR DYNAMICS
297	Modélisation des phénomènes de films liquides dans les turbines à vapeur / Modelling and simulation for liquid films in steam turbines Simon, Amélie 11 January 2017 (has links) Dans la production d'électricité, un des leviers centraux pour réduire les détériorations et les pertes causées par l'humidité dans les turbines à vapeur est l'étude des films liquides. Ces films minces, sont créés par la déposition de gouttes et sont fortement cisaillés. Des gouttes peuvent ensuite être arrachées du film. A l'heure actuelle, aucun modèle complet et valide n'existe pour décrire ce phénomène. Un modèle 2D à formulation intégrale associé à des lois de fermetures a été dérivé pour représenter ce film. Comparé aux équations classiques de Saint-Venant, le modèle prend en compte davantage d'effets : le transfert de masse, l'impact des gouttes, le cisaillement à la surface libre, la tension de surface, le gradient de pression et la rotation. Une analyse des propriétés du modèle (hyperbolicité, entropie, conservativité, analyse de stabilité linéaire, invariance par translation et par rotation) est réalisée pour juger de la pertinence du modèle. Un nouveau code 2D est implémenté dans un module de développement libre du code EDF Code Saturne et une méthode de volumes finis pour un maillage non-structure a été développée. La vérification du code est ensuite effectuée avec des solutions analytiques dont un problème de Riemann. Le modèle, qui dégénère en modèle classique de Saint-Venant pour le cas d'un film tombant sur un plan inclinée, est validé par l'expérience de Liu and Gollub, 1994, PoF et comparé à des modèles de références (Ruyer-Quil and Manneville, 2000, EPJ-B et Lavalle, 2014, PhD thesis). Un autre cas d'étude met en scène un film cisaillé en condition basse-pression de turbine à vapeur et, est validé par l'expérience de Hammitt et al., 1981, I. Enfin, le code film est couplé aux données 3D du champ de vapeur autour d'un stator d'une turbine basse-pression du parc EDF, issues de Blondel, 2014, PhD thesis. Cette application industrielle montre la faisabilité d'une simulation d'un film en condition réelle du turbine à vapeur. / In the electricity production, one central key to reduce damages and losses due to wetness in steam turbines is the study of liquid films. These thin films are created by the deposition of droplets and are highly sheared. This film may then be atomized into coarse water. At the moment, no comprehensive and validated model exists to describe this phenomenon. A 2D model based on a integral formulation associated with closure laws is developed to represent this film. Compared to classical Shallow-Water equation, the model takes into account additional effect : mass transfer, droplet impact, shearing at the free surface, surface tension, pressure gradient and the rotation. The model properties (hyperbolicity, entropy, conservativity, linear stability, Galilean invariance and rotational invariance) has been analyzed to judge the pertinence of the model. A new 2D code is implemented in a free module of the code EDF Code Saturne and a finite volume method for unstructured mesh has been developed. The verification of the code is then carried out with analytical solutions including a Riemann problem. The model, which degenerates into classical Shallow-Water equations for the case of a falling liquid film on a inclined plane, is validated by the experiment of Liu and Gollub, 1994, PoF and compared to reference models (Ruyer-Quil and Manneville, 2000, EPJ-B et Lavalle, 2014, PhD thesis). Another study depicts a sheared film under low-pressure steam turbine conditions and is validated by the experiment of Hammitt et al., 1981, FiI. Lastly, the code film is coupled to 3D steam data around a fixed blade of a BP100 turbine, from Blondel, 2014, PhD thesis. This industrial application shows the feasibility of liquid film's simulation in real steam turbine condition. Équations de Saint-Venant Film mince tombant Film cisaillé Rotation Tension de surface Déposition de goutte Hyperbolicité Entropie Analyse de stabilité linéaire Von Neumann Volume fini Problème de Riemann Propagation de vagues Surface libre Shallow-Water equations Thin falling film Sheared film Rotation Surface tension Droplet deposition Hyperbolicity Entropy Linear stability analysis Von Neumann Finite volume Riemann problem Wave propagation Free surface
298	Análise de estabilidade de contenções, via MEF, considerando a interação solo-estrutura. / Analysis of stability of retaining walls, via MEF, regarding the soil-structure interaction. Nascimento, Alessandro Lugli 25 November 2011 (has links) Este trabalho tem a finalidade de estudar a influência da parede de concreto na análise de estabilidade de contenções atirantadas bem como discutir sobre segurança nestas análises. Para isto foram elaborados modelos em estado plano de deformação por meio do método dos elementos finitos, MEF, para análise. A parede de concreto foi modelada com variações de rigidez e modelos reológico, com o fim de se entender sua influência no fator de segurança. Por fim foi realizado um breve estudo sobre a utilização dos métodos estatísticos na análise de estabilidade de contenções. / This work has the purpose of study the influence of the concrete wall in the stability analysis of tieback retaining walls and to discuss these safety analysis. Models were developed using plane strain state via the finite element method, FEM, for analysis. The concrete wall was modeled with variations of stiffness and rheological models, in order to bore its influence on the safety factor. Finally a brief study was conducted on the use of statistical methods in stability analysis of retaining walls. Concreto armado Diagram-normal-moment curvature Diagrama momento-normal-curvatura Estabilidade de contenções Finite element method Interação solo-estrutura Método dos elementos finitos Reinforced concrete soil-structure interaction Stability of retaining walls
299	Nuevas técnicas de simulación y optimización de circuitos osciladores y lazos de enganche en fase de microondas Domínguez Mosquera, Jacobo 25 June 2009 (has links) El objetivo de este trabajo es el desarrollo de técnicas para la simulación y optimización del diseño de circuitos osciladores y lazos de enganche en fase de microondas. La intención de estas técnicas es que puedan ser utilizadas por el diseñador para optimizar las prestaciones de este tipo de circuitos durante la etapa de diseño. Por este motivo, se ha intentado que en todo momento las técnicas puedan ser utilizadas en combinación con un programa comercial de simulación de circuitos de microondas.En el caso de los circuitos osciladores, inicialmente se han optimizado sus prestaciones cuando se utilizan como osciladores controlados por tensión. De esta forma, se han desarrollado una serie de técnicas que, en combinación con simulaciones en un programa comercial, permiten la linealización y extensión de la característica tensión-frecuencia. Mediante una técnica de control de estabilidad, se ha optimizado la respuesta dinámica del oscilador ante entradas variantes en el tiempo. En concreto, se ha aumentado la rapidez de respuesta eliminando transitorios lentos oscilantes que distorsionan la señal de salida deseada. Esta técnica se ha aplicado al caso particular de osciladores controlados por tensión utilizados para generar señales chirp, como puede ser en radares Frequency Modulated Continuos Wave (FMCW). Se ha analizado también el fenómeno del "injection-pulling", en el que una señal interferente desplaza la frecuencia de oscilación. Para ello, se ha desarrollado una formulación tipo transitorio de envolvente cuyos coeficientes pueden ser identificados mediante simulaciones de balance armónico en un simulador comercial. La técnica permite incrementar la robustez del circuito oscilador ante estas señales interferentes. Dados los problemas observados en el simulador comercial para simular la característica de ruido de fase en osciladores con estructuras acopladas, se ha desarrollado una técnica de simulación de ruido de fase que solventa estos problemas. La técnica obtiene la característica de ruido de fase a través de simulaciones de transitorio de envolvente en combinación con el uso de generadores auxiliares. Estas simulaciones pueden realizarse sin problemas usando un simulador comercial. Los resultados de todas las técnicas han sido corroborados mediante medidas en varios tipos de osciladores de microondas. Finalmente, se ha realizado un estudio preliminar para combinar el uso de series de Volterra con la técnica de transitorio de envolvente para la simulación de la respuesta transitoria de los osciladores.En el caso de los lazos de enganche en fase, se ha desarrollado un programa propio que realiza un análisis no lineal de lazos acoplados o "Coupled Phase-Locked Loops" (CPLL). Estos sistemas son utilizados en aplicaciones tales como en control de apuntamiento de antenas "phased-array". El programa, basado en una formulación tempo-frecuencial del sistema, permite la obtención de los rangos de operación del CPLL mediante una caracterización no lineal de los elementos que componen el lazo. Se delimitan los rangos de histéresis, y se analiza la variación de estos rangos en función de los parámetros del sistema. Se analiza la estabilidad de las soluciones estacionarias, teniendo en cuenta parámetros tales como el retardo del lazo. Mediante el control de la estabilidad y un análisis de tipo transitorio de envolvente, se optimiza la rapidez del sistema en el seguimiento de entradas moduladas. Finalmente, se analiza el ruido de fase, separando la perturbación en fase en distintas componentes. Esta separación permite clarificar el efecto del ruido en el control de apuntamiento de un array de antenas. Las predicciones de las técnicas han sido validadas mediante medidas en un sistema CPLL a 2 GHz. / The objective of this work is the development of techniques for the simulation and optimization of the design of microwave oscillator circuits and phase-locked loops. The intention of these techniques is that they can be used by the designer to optimize the features of these kinds of circuits during the design stage. For this reason, a lot of effort has been put along this thesis to ensure that the techniques can be used in combination with commercial microwave circuit simulators.In the case of the oscillator circuits, initially, their features have been optimized when used as voltage controlled oscillators (VCO). In this way, different techniques are proposed for the computer aided design of these circuits. The first technique allows setting the operation frequency band for specific values of the tuning voltage. The second technique imposes a linear frequency-voltage characteristic with the aid of an auxiliary generator. To follow this characteristic, the circuit is solved in terms of an ideal capacitance, synthesized, at a later stage, with the tuning varactor embedded in a linear network. In the third technique, the oscillator response to a sawtooth input, used to generate a chirp signal, is improved, eliminating spurious frequencies, not observable in steady state. To illustrate the techniques, a VCO operating in the C-band has been optimized and used to generate a chirp signal with low nonlinear frequency distortion. The injection-pulling phenomenon in oscillator circuits has been also analyzed. Injection pulling by interference signals is an undesired phenomenon in front-end oscillators, which causes a shift of the oscillation frequency and degrades the output spectrum. A semi-analytical formulation for the insightful analysis of injection-pulling phenomena in the presence of a modulated carrier or chirp signal is presented. The formulation enables an efficient analysis of interference problems difficult to simulate with harmonic balance or standard envelope transient. It allows the modification of the original design in order to reduce the injection pulling to the desired levels. The techniques have been applied to an oscillator at 6 GHz. Considering the problems found in commercial software to simulate the phase noise characteristic of coupled oscillator topologies, a numerical technique for the determination of the phase-noise spectrum of free-running oscillators is presented. The technique is based on envelope transient and can be applied to any commercial simulator on which this analysis method is available. The main advantage of the technique is that it allows simulating the near carrier phase noise spectrum, including possible resonances. The elements providing the oscillator phase-noise spectrum are obtained from envelope-transient simulations of low-computational cost. Comparisons are performed between the presented technique and other existing techniques, such as the carrier modulation approach. The technique has been successfully tested on the simulation of the near carrier phase noise spectrum of an oscillator circuit at 6.3 GHz. Finally, a preliminary study has been carried out to combine the use of Volterra series with the envelope transient technique for the simulation of oscillator transients.Regarding the phase-locked loops, in this thesis, harmonic-balance (HB) and envelope-transient formulations of coupled phase-locked loops (CPLLs) are presented. The CPLL has the added difficulty of its autonomous behavior since no reference oscillator is present. The new formulation takes into account the autonomy of the system, introducing a special set of state variables, which depend on the autonomous frequencies. The hysteresis phenomenon in CPLLs is analyzed in detail, efficiently obtaining the pull-in and hold-in ranges through HB. The pole analysis of the perturbed HB system enables an accurate prediction of instabilities and resonances. Due to the CPLL autonomy, there exists an inherent noise accumulation effect. This effect is taken into account, analyzing the perturbation in terms of accumulation and deviation components. The envelope formulation allows simulating the CPLL behavior in presence of modulation signals. The influence of the stability of the steady-state solution on the modulated signals is investigated. The simulation results have been successfully compared with the measurements in a manufactured CPLL system at 2 GHz. harmonic balance phase boise stability analysis autonomous systems phase-locked loops (PLL) oscillator circuits microwave communications systems series de Volterra transitorio de envolvente balance armónico ruido de fase análisis de estabilidad sistemas autónomos lazos enganchados en fase circuitos osciladores sistemas de comunicaciones de microondas envelope transient Volterra series Teoría de la Señal 537 621.3
300	Beeinflussung der thermomagnetischen Konvektion in Ferrofluidschichten durch den magnetischen Soret-Effekt Sprenger, Lisa 02 December 2013 (has links) (PDF) Diese Arbeit stützt sich auf die theoretische und experimentelle Untersuchung der Thermodiffusion im Magnetfeld. Bei magnetischen Flüssigkeiten als kolloidalen Suspensionen versteht man unter der Thermodiffusion einen durch einen Temperaturgradienten angestoßenen unidirektionalen Partikeltransport, der zur Separation des Fluids führt. Beschrieben wird die Thermodiffusion theoretisch über das Konzentrationsprofil der Partikel in Abhängigkeit von Zeit und Ort in einer Fluidschicht. Die Experimente detektieren die Separation des Fluids über die Konzentrationsdifferenz zwischen zwei Fluidkammern. Die Bestimmung des Soret-Koeffizienten erfolgt über einen Datenfit zwischen experimentellen und theoretischen Daten. Für das kerosinbasierte Ferrofluid EMG905 wurden zwei Effekte festgestellt. Bei kleinen Magnetfeldstärken wandern die Partikel zum kalten Rand der Schicht (ST>0), bei steigenden Feldstärken kehrt sich diese Richtung um (ST<0). Die Ergebnisse der Untersuchungen zur Thermodiffusion gehen dann in eine lineare Stabilitätsanalyse einer Ferrofluidschicht bei anliegendem Temperaturgradienten und Magnetfeld ein. Dabei wird festgestellt, dass die kritische Rayleigh-Zahl als charakteristische Größe zum Einsetzen von Konvektion von dem Soret-Koeffizienten abhängt. Ist letzterer positiv, wird das Einsetzen von Konvektion begünstigt, ist er wiederum negativ, so kann Konvektion vollständig unterdrückt werden. Thermodiffusion Ludwig-Soret-Effekt Soret-Koeffizient magnetischer Soret-Effekt Ferrofluiddynamik-Theorie Diffusionskoeffizient thermomagnetische Konvektion lineare Stabilitätsanalyse Rayleigh-Zahl magnetische Flüssigkeiten Ferrofluide kolloidale Suspensionen thermische Transportprozesse thermal diffusion Ludwig-Soret-effect Soret-coefficient magnetic Soret-coefficient ferrofluiddynamics-theory diffusion-coefficient thermomagnetic convection linear stability analysis Rayleigh-number magnetic fluids ferrofluids colloidal suspensions thermal transport processes ddc:620 rvk:UG 2700

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