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1	Experimentální ověření tuhosti ložisek polohovacího mechanismu pro optickou komunikaci mezi satelity / Experimental bearings stiffness verification of the pointing assembly for optical inter-satellite link Svoboda, Tomáš January 2021 (has links) This master´s thesis deals with the determination of the stiffness of a preloaded double-row bearing with an angular contact in the relevant conditions. The introduction describes the basic knowledge about double row angular contact bearings and the relationship between internal clearance, preload and other effects on stiffness. An overview of studies dealing with bearing stiffness and an overview of devices used for experimental stiffness determination is given. Subsequently, the solution itself is described, in which the theoretical calculation of the bearing stiffness was performed first. To determine the experimental values, it was necessary to design and construct experimental device for testing the bearing in the relevant conditions. The effect of material and temperature on the stiffness of the bearing was determined from the measured data and theoretical calculations. The result of this thesis is a functional device, which was used to test the bearing in the thermal chamber.
2	Etude expérimentale du contact aube/abradable : contribution à la caractérisation mécanique des matériaux abradables et de leur interaction dynamique sur banc rotatif avec une aube / Blade/seal contacts in a jet engine : experimental contribution to the characterization of the mechanical behaviour of the abradable seal, and of its dynamic interaction with the blade, on a rotating device Baïz, Sarah 29 March 2011 (has links) L’utilisation de revêtements abradables pour assurer l’étanchéité dynamique des turboréacteurs est une solution répandue qui permet d’augmenter la fiabilité et le rendement aérodynamique des turboréacteurs. En fonctionnement, des touches inévitables entre le revêtement et le bout d’aubes de rotor peuvent être à l’origine d’une usure excessive du revêtement abradable et/ou de la rupture d’aube. La simulation numérique de tels incidents butte sur un manque de connaissance des interactions aube/carter et des forces mises en jeu au contact, forces qui résultent notamment de couplages entre le frottement, l’usure du revêtement et des phénomènes vibratoires.Cette thèse a pour objectif de mieux appréhender les mécanismes d’interaction entre l’aube et le revêtement abradable. Elle résulte d’une collaboration entre l’ONERA de Lille et le Laboratoire de Mécanique de Lille et concerne le revêtement de type Al-Si/hbN (Metco 320NS), couramment utilisé dans les compresseurs à basse pression.Les propriétés physico-chimiques et le comportement mécanique – notamment en dynamique – du revêtement abradable sont étudiés. Compte-tenu d’une asymétrie du comportement en traction et en compression, l’exploitation en corrélation d’images numériques d’un essai original inspiré de l’essai Brésilien permet de rendre compte des mécanismes de dégradation. Le comportement tribologique est étudié sur tribomètre dans différentes configurations de contact. L’interaction entre l’aube et le revêtement ainsi que les couplages avec les vibrations d’aube sont investigués et caractérisés dans une configuration simplifiée et fortement instrumentée, sur un banc rotatif spécifique développé à l’ONERA de Lille / Abradable seals are extensively used in jet engines to ensure smaller rotor/stator dynamic clearances and lead to higher aerodynamic efficiencies. However, the resulting reduced rotor/stator gap can cause excessive seal wear and/or a significant increase in rotor blades solicitation, both of which can be highly detrimental to the engine’s structural integrity. To allow numerical modelling of such accidental scenarios, there is a need to better comprehend the blade/seal interactions as well as the contact forces involved and that can be influenced by the couplings occurring between friction, seal wear and blade vibration.This thesis aims at contributing to a better understanding of the blade/seal interaction mechanisms, in the framework of a cooperation between ONERA de Lille and the Laboratoire de Mécanique de Lille. The abradable material is of Al-Si/hBN type (Metco 320NS), commonly used in low pressure compressors. The physicochemical properties and the mechanical behaviour – under static and dynamic loading – of this abradable material are tested. Given the anti-symmetry of its tension and compression behaviour, use of the Digital Image Correlation technique to analyze an experiment derived from the Brazilian test allows qualification of the damage mechanisms. The friction behaviour of the abradable seal is studied on a tribometer using different contact configurations. Characterisation of the blade/seal interaction and of some of the associated coupling phenomena is done on a dedicated and instrumented device developed at ONERA de Lille Revêtement abradable Contact rotor/stator Banc expérimental Essai Brésilien Frottement Usure Vibration Abradable seal Rotor/stator contact Experimental device Brazilian testing Friction Wear Vibration
3	Transfert de déformations géométriques lors des couplages de codes de calcul : Application aux dispositifs expérimentaux du réacteur de recherche Jules Horowitz Duplex, Benjamin 14 December 2011 (has links) Le CEA développe et utilise des logiciels de calcul, également appelés codes de calcul, dans différentes disciplines physiques pour optimiser les coûts de ses installations et de ses expérimentations. Lors d'une étude, plusieurs phénomènes physiques interagissent. Un couplage et des échanges de données entre plusieurs codes sont nécessaires.Chaque code réalise ses calculs sur une géométrie, généralement représentée sous forme d'un maillage contenant des milliers voire des millions de mailles. Cette thèse se focalise sur le transfert de déformations géométriques entre les maillages spécifiques de chacun des codes de calcul couplés. Pour cela, elle présente une méthode de couplage de plusieurs codes, dont le calcul des déformations est réalisé par l'un d'entre eux. Elle traite également de la mise en place d'un modèle commun aux différents codes de l'étude regroupant l'ensemble des données partagées. Enfin, elle porte sur les transferts de déformations entre des maillages représentant une même géométrie ou des géométries adjacentes. Les modifications géométriques sont de nature discrète car elles s'appuient sur un maillage. Afin de les rendre accessible à l'ensemble des codes de l'étude et pour permettre leur transfert, une représentation continue est calculée. Pour cela, deux fonctions sont développées : l'une à support global, l'autre à support local. Toutes deux combinent une méthode de simplification et un réseau de fonctions de base radiale. Un cas d'application complet est traité dans le cadre du réacteur Jules Horowitz. L'effet des dilatations différentielles sur le refroidissement d'un dispositif expérimental est étudié. / The CEA develops and uses scientific software, called physical codes, in various physical disciplines to optimize installation and experimentation costs. During a study, several physical phenomena interact, so a code coupling and some data exchanges between different physical codes are required.Each physical code computes on a particular geometry, usually represented by a mesh composed of thousands to millions of elements. This PhD Thesis focuses on the geometrical modification transfer between specific meshes of each coupled physical code. First, it presents a physical code coupling method where deformations are computed by one of these codes. Next, it discusses the establishment of a model, common to different physical codes, grouping all the shared data. Finally, it covers the deformation transfers between meshes of the same geometry or adjacent geometries. Geometrical modifications are discrete data because they are based on a mesh. In order to permit every code to access deformations and to transfer them, a continuous representation is computed. Two functions are developed, one with a global support, and the other with a local support. Both functions combine a simplification method and a radial basis function network. A whole use case is dedicated to the Jules Horowitz reactor. The effect of differential dilatations on experimental device cooling is studied. Transfert de déformations Fonction de base radiale Simplification de maillage Métrique d'erreur quadratique Modèle géométrique Couplage de codes de calcul Dispositif expérimental Deformation transfer Radial basis function Mesh simplification Quadric error metric Geometrical model Physical code coupling Experimental device
4	Identificação da difusividade térmica de ligas metálicas utilizando um campo de temperatura periódico. OLIVEIRA, José Ricardo Ferreira. 17 August 2018 (has links) Submitted by Emanuel Varela Cardoso (emanuel.varela@ufcg.edu.br) on 2018-08-17T17:30:45Z No. of bitstreams: 1 JOSÉ RICARDO FERREIRA OLIVEIRA – DISSERTAÇÃO (PPGEM) 2017.pdf: 2648257 bytes, checksum: 5e08d81aaa5973d7c6fd8bac23c313cc (MD5) / Made available in DSpace on 2018-08-17T17:30:45Z (GMT). No. of bitstreams: 1 JOSÉ RICARDO FERREIRA OLIVEIRA – DISSERTAÇÃO (PPGEM) 2017.pdf: 2648257 bytes, checksum: 5e08d81aaa5973d7c6fd8bac23c313cc (MD5) Previous issue date: 2017-11-30 / CNPq / A caracterização termofísica dos materiais utilizados na Engenharia é de grande importância para realização de projetos nas mais diversas áreas de conhecimento onde os fenômenos ligados aos processos de transferência de calor exercem um papel fundamental. A difusividade térmica é uma propriedade termofísica importantíssima na análise de problemas de difusão de energia térmica. Este trabalho teve como proposta a determinação desta propriedade utilizando um campo de temperatura periódico. Para isto, foi construído um dispositivo experimental com princípio de funcionamento no método de Angstrom, o qual faz uso de um fluxo de calor periódico de uma fonte controlada, gerando assim, um campo de temperatura periódico na amostra em teste. Termopares foram instalados nas amostras para captar os sinais de temperatura gerados pelo fluxo de calor periódico. A amplitude e a fase destes sinais foram obtidas por meio de um software de análise gráfica. O termopar mais próximo da fonte de calor foi adotado como referência, ao passo que a razão de amplitudes e a defasagem, entre os sinais térmicos registrados pelos demais termopares em relação ao registrado por àquele termopar , foram calculadas. Estes resultados foram utilizados em modelos matemáticos para determinar a difusividade térmica, que pode ser identificada ou atra vés da razão de amplitudes ou através da defasagem entre os perfis de temperatura. As amostras utilizadas neste trabalho foram de aço inox AISI 304, aço inox AISI 316 e de uma liga de memória de forma de níquel-titânio. Os valores de difusividade térmica identificados para estes materiais, quando foram comparados com valores disponíveis na literatura, obtiveram uma boa concordância, tendo em vista a faixa de incerteza apresentada. / Thermophysical characterization of materials used in engineering is very important for realization of projects in the most diverse areas of knowledge where the phenomena related to the process of heat transfer play an important role. Thermal diffusivity is a very important thermal property on the analysis of problems of diffusion of thermal energy. This work proposes the determination of this property using a periodic temperature field. For this, an experimental device was built with principle of operation in Angstrom’s method, which makes use of a periodic heat flow from a controlled source, thereby generating a periodic temperature field in the test sample. Thermocouples were installed on the samples for capture of signals generated by the periodic heat flow. Amplitude and phase of these signals were obtained by means of graphic analysis software. The thermocouple closest to the heat source was adopted as reference, and the ratio and phase lag, between the thermal signals registered by other thermocouples in relation to that registered by that thermocouple, were calculated. These results were utilized in mathematical models to determine the thermal diffusivity, whose identification can be performed either through the amplitude ratio or through the phase lag between the temperature profiles. Samples utilized in this work were stainless steel AISI 304, stainless steel AISI 316 and a shape memory alloy of nickel-titanium. Identified values of thermal diffusivity of these materials, when compared whit values available in literature obtained a good agreement, considering the range of uncertainty presented. Engenharia Mecânica Difusividade térmica Ligas metálicas Propriedades termofísicas Campo de temperatura - Periódico Método de angstrom Dispositivo experimental Liga de memória Thermal diffusivity Metal alloys Thermophysical properties Temperature field - Newspaper Angstrom method Experimental device Memory Alloy
5	Využití membrán pro zpracování odpadních vod ze zemědělství / Membrane technologies for agricultural wastewater treatment Uhlířová, Marcela January 2021 (has links) This thesis deals with an agricultural wastewater treatment (liquid digestate) by membrane technology. There is a fundamental description of characteristics of membrane technology with regard to application of agricultural wastewater treatment in this thesis. Experimental device for treatment of liquid digestate is designed and it consists of three steps – microfiltration, ultrafiltration and reverse osmosis. The first step consists of four filters with different pore sizes (80, 25, 10 and 5 µm). The second step is ultrafiltration and the third and key step is reverse osmosis. In the final step monovalent ions such as NH4+ are separated. Reverse osmosis consists of two stage system which results in higher recovery. Three experiments were carried out in order to verify the efficiency of separation dissolved solids.
6	Efektivnost provozu fotovoltaických generátorů / Operational efficiency of photovoltaic generators Koval, Filip January 2008 (has links) Objective of master’s thesis theoretical part is especially to illustrate influence of operation conditions, such as solar radiation, temperature or pollution of photovoltaic generator active area, on load and power characteristics of photovoltaic generator, or more precisely on photovoltaic conversion efficiency. Possible variants of increasing effectivity of using photovoltaic generator are explored, such as solar radiation concentration, photovoltaic generator active area cooling or aplication of optimalization circuit. Pivotal part of master‘s thesis is focused on experimental device practical realisation, concretely type MSQ36-10 photovoltaic generator with oriented concentrators of solar radiation. Practical realisation includes design of master‘s thesis experimental part construction with subsequent design of photovoltaic generator motion cycle necessary for adequate simulation of configuration variants solved using single testing photovoltaic generator. Description of own experimental device construction with list of measuring places used in task takes up. It is used automatic monitoring system working as independent measurement task for required values measuring and consecutive data collecting. It is done in two phases. First phase is measurement of all required values, in second phase measurement with attached optimalization circuit is made. Optimalization circuit sets best working point of photovoltaic generator according to actual working conditions. Master‘s thesis intention is experimental verification of solar radiation concentrators application convenience, orientation of photovoltaic generator or its mutual combination, namely using type MSQ36-10 photovoltaic generator. Objective is evaluation of reached energetic gain for all experimental device layouts in variable operating conditions.
7	Experimental study of the fundamental phenomena involved in pool boiling at low pressure / Étude expérimentale des phénomènes fondamentaux de l’ébullition en vase à basse pression Michaïe, Sandra 04 May 2018 (has links) L’ébullition est un mode de transfert de chaleur intervenant dans de nombreux systèmes thermiques ou énergétiques de par son efficacité. Dans certains, elle se produit à basse pression. La pression statique induite par la colonne de liquide au-dessus de la surface de formation des bulles n’est alors pas négligeable devant la pression de saturation à la surface libre. Dès lors, la pression et le sous-refroidissement induit ne peuvent plus être considérés homogènes autour des bulles, d’où des inhomogénéités des propriétés thermophysiques dans le fluide. Les influences relatives des forces s’exerçant sur une bulle pendant sa croissance sont modifiées par rapport aux pressions plus élevées : une dynamique de bulles différente apparaît. Ces conditions particulières affectent également les transferts thermiques. L’influence de la pression sur l’ébullition en vase a été étudiée expérimentalement dans le régime de bulles isolées en site unique. L’eau a d’abord été testée sur une large gamme de pressions subatmosphériques. Quatre comportements de dynamique de bulles ont été identifiés d’après la visualisation par caméra rapide. Plusieurs paramètres de la dynamique ont été quantifiés grâce à un traitement d’images adapté appliqué aux vidéos. Pour généraliser le concept d’ébullition à « basse pression » et mieux en appréhender les phénomènes fondamentaux, de nouveaux essais ont été réalisés avec un second fluide, le cyclohexane, choisi pour sa similitude thermodynamique avec l’eau bouillant en deçà de la pression atmosphérique. La comparaison des comportements des deux fluides a permis d’identifier certains paramètres responsables des spécificités du phénomène. En outre, de nouvelles fonctionnalités sont apportées au dispositif expérimental pour – notamment – effectuer la mesure rapide du flux transféré sous la bulle pendant sa croissance, synchroniser ces mesures thermiques avec l’acquisition d’images et étudier des surfaces d’ébullition structurées. Les résultats obtenus sont encourageants pour l’analyse des comportements spécifiques de l’ébullition à basse pression et ses applications. / Boiling is an efficient heat transfer mode used in numerous thermal or energy systems. In some systems boiling takes place at low pressure. The static head of the liquid column over the wall where bubbles nucleate is then not negligible against the saturation pressure at the free surface level. The pressure and the induced subcooling degree therefore cannot be considered as homogeneous around growing bubbles, resulting in non-homogeneous thermophysical properties in the fluid. The relative influence of the forces acting on a growing bubble differs from higher pressure conditions, yielding specific bubble dynamics features. Heat transfer is consequently also affected. The effect of the pressure on pool boiling was experimentally investigated during the isolated bubbles regime taking place from a single activated nucleation site. Experiments were first conducted with water for a wide range of subatmospheric pressures. Four distinct bubble dynamics behaviors were identified through high-speed camera visualizations. An adapted image processing of the recordings enabled the measurement of several bubble dynamics characteristics. In order to generalize the concept of pool boiling at "low pressure" and to get a better understanding of the related fundamental phenomena, new experiments were performed with a second fluid, cyclohexane, chosen from original thermodynamic similarity with water boiling at pressures lower than atmospheric. The comparison of fluids’ behaviors made possible the identification of parameters governing the specific phenomena occurring during boiling at low pressure. Besides, the experimental facility was improved to provide new functionalities. The high-speed measurement of the heat flux transferred under the growing bubble, its synchronization with the high-speed videos images and the study of boiling on enhanced surfaces are in particular made possible. Results are encouraging for a better understanding of the specific behaviors of low pressure boiling and for its future implementation in practical applications. Transfert de chaleur Ebullition en vase Ebullltion Transferts thermiques Bulles isolées Vase basse pression Thermodynamique Dispositif expérimental Dynamique de bulles Basse pression Essais expérimentaux Comparaison de fluides Similitude thermodynamique Heat transfer Boiling in vase Pool boiling Thermics transferts Insulated bubbles Low pressure vessel Thermodynamics Experimental device Bubble dynamics Bubble dynamics Thermodynamic similarity 536.250 72

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