Global ETD Search

121	Thermal Conductivity of Poly-Alpha-Olefin (PAO)-Based Nanofluids Narvaez, Javier A. 19 August 2010 (has links) No description available. Chemical Engineering Engineering Fluid Dynamics Mechanical Engineering thermal conductivity nanofluid PAO poly alpha olefin multi-walled carbon nanotube MWCNT aluminum oxide alumina models techniques laser flash hot wire hot disk
122	Additive Manufacturing of Maraging 250 Steels for the Rejuvenation and Repurposing of Die Casting Tooling Kottman, Michael Andrew 09 February 2015 (has links) No description available. Metallurgy Engineering Materials Science Additive Manufacturing Maraging Die Casting Repair Laser Hot Wire LHW Direct Metal Deposition DMD Gas Metal Arc Welding GMAW Rapid Pulsed Arc RPA Laser Engineered Net Shaping LENS Electron Beam Freeform Fabrication EBF3
123	Studies of particle and atom manipulation using free space light beams and photonic crystal fibres Gherardi, David Mark January 2009 (has links) Light can exert optical forces on matter. In the macroscopic world these forces are minuscule, but on the microscopic or atomic scale, these forces are large enough to trap and manipulate particles. They may even be used to cool atoms to a fraction of a degree above absolute zero. This thesis details a number of experiments concerned with the optical manipulation of atoms and micron-size particles using free space light beams and photonic crystal fibres. Two atom guiding experiments are described. In the first experiment, a spatial light modulator is used to generate higher blue-detuned azimuthal Laguerre-Gaussian LG) beams, which are annular beams with a hollow core. These LG beams are then used to guide laser cooled rubidium-85 atoms within the dark core over a distance of 30 mm. The second atom guiding experiment involves attempting to guide laser cooled and thermal rubidium atoms through a hollow-core photonic crystal fibre using red-detuned light. Hollow-core photonic crystal fibres are fibres that are able to guide light with low attenuation within a hollow core. For this experiment a hot wire detection system was designed, along with a number of complex vacuum systems. The first dual-beam fibre trap for micron-size particles constructed using endlessly single-mode photonic crystal fibre (ESM-PCF) is described. The characteristics of dual-beam fibre traps are governed by the fibres used. As ESM-PCF has considerably different properties in comparison to conventional single- or multimode fibres, this dual beam ESM-PCF trap exhibits some novel characteristics. I show that the dual beam ESM-PCF trap can form trapping, repulsive and line potentials; an interference-free ‘white light’ trap; and a dual-wavelength optical conveyor belt. 539.6
124	Macroscopic and Microscopic surface features of Hydrogenated silicon thin films Pepenene, Refuoe Donald January 2018 (has links) Magister Scientiae - MSc (Physics) / An increasing energy demand and growing environmental concerns regarding the use of fossil fuels in South Africa has led to the challenge to explore cheap, alternative sources of energy. The generation of electricity from Photovoltaic (PV) devices such as solar cells is currently seen as a viable alternative source of clean energy. As such, crystalline, amorphous and nanocrystalline silicon thin films are expected to play increasingly important roles as economically viable materials for PV development. Despite the growing interest shown in these materials, challenges such as the partial understanding of standardized measurement protocols, and the relationship between the structure and optoelectronic properties still need to be overcome.
125	Transition à la turbulence en écoulements compressibles décollés / Turbulence transition in compressible separated flows Diop, Moussa 03 November 2017 (has links) Les recherches sur les instationnarités des Interactions Ondes de Choc Couches Limites (IOCCL) turbulentes ont permis une description détaillée de celles-ci tant expérimentalement que numériquement . Ceci a conduit à plusieurs schémas susceptibles d'expliquer les respirations à basses fréquences observées dans de tels écoulements. Les configurations avec des conditions amont laminaires ou transitionnelles ont été moins étudiées.Dans le cadre du programme Européen TFAST, un important effort a été mené afin de développer des dispositifs expérimentaux, conjointement à des simulations numériques, permettant une étude détaillée de ces configurations. Dans le cadre de cette thèse, on a mis en place une configuration de réflexion d'onde de choc sur une couche limite laminaire pour un nombre de Mach de 1.68. L'utilisation des métrologies classiques (Anémométrie Laser Doppler, Anémométrie Fil Chaud), adaptées à ces conditions expérimentales particulières, a permis de décrire les propriétés spatio-temporelles de ces écoulements. Le champ moyen a été caractérisé et comparé aux théories classique et aux résultats obtenus dans différentes souffleries.Un schéma décrivant le mécanisme de transition à la turbulence au sein de l'interaction a été développé. Sa sensibilité aux conditions amont a été étudiée en plaçant des perturbations en amont de l'interaction. Dans tous les cas, des instationnarités convectives (haute fréquence) et stationnaires (basse fréquence) ont été observées et comparées à celles existantes pour les configurations amont turbulentes. Une gamme intermédiaire d'instationnarités convectives (moyenne fréquence) a été mise en évidence et caractérisée. / Research dedicated to the study of the unsteadiness of turbulent Shock Wave Boundary Layer Interaction (SWBLI) has allowed a detailed description of this kind of interaction both experimentally and numerically. Several scenario were proposed to explain the low frequency unsteadiness observed in separated SWBLI. Nevertheless, the literature on this kind of flow involving either upstream laminar or transitional conditions is quite reduce. Within the framework of the European TFAST program, an important effort was made to develop experimental devices, in conjunction with numerical simulations, allowing a detailed study of these laminar or transitional configurations. In particular, within the framework of this thesis, a shock wave reflection configuration on a laminar boundary layer was set-up, with a nominal free stream Mach number of 1.68. Using classical metrology (Laser Doppler Anemometry, Hot WireAnemometry) that have been adapted to these particular experimental conditions, we have been able to describe the spatio-temporal properties of the interaction. The mean field has been characterized and compared with the classical theories and the results obtained in other configurations.A model describing the transition mechanisms to turbulence within the interaction has been developed. Its sensitivity to upstream conditions was studied by placing perturbations upstream of the interaction. In all cases, convective (high frequency) and stationary (low frequency) unsteadiness were observed and compared with those existing for upstream turbulent configurations. An intermediate range of convective unsteadiness (medium frequency) has been demonstrated and characterized. Interaction onde de choc couche limite Supersonique Interaction transitionnelle Instationnarités Décollement transitionnel Décollement laminaire Transition à la turbulence Anémométrie Fil Chaud Afc Anémométrie Laser Doppler Ald Bruit de mesure ALD Shock wave boundary layer interaction Supersonic Transitional interaction Unsteadiness Transitional separation Laminar separation Laminar turbulent transition Hot Wire Anemometry Hwa Laser Doppler Anemometry Lda LDA measurement noise
126	Modélisation du transfert thermique des câbles en galerie / Heat transfer modeling of power cables in tunnels Boukrouche, Fahd 17 February 2017 (has links) Une analyse critique de la modélisation des échanges thermiques des câbles d’énergie en galerie est réalisée, avec l’étude de facteurs d’influences propres aux modes de pose des câbles dans ces ouvrages. Les câbles, de plusieurs kilomètres, chauffent du fait du courant transmis dans leurs âmes. Ils sont alors refroidis par une convection forcée turbulente, dans l’axe des câbles, et échangent par rayonnement avec les parois. Pour étudier ce refroidissement, un banc d’essais expérimental a été conçu, en similitude de Reynolds, modélisant différents câbles soumis à un écoulement turbulent développé. Les résultats sont comparés et étayés par des simulations numériques 3D, développées sous l’outil OpenFOAM. Les études réalisées ont permis de mettre en évidence la mésestimation importante de l’échange convectif par la norme existante. Celle-ci propose un refroidissement qui se compose en réalité pour un tiers de l’effet de supports maintenant les câbles et d’un autre tiers d’un écoulement encore en début d’établissement. Le dernier tiers étant le refroidissement effectif des câbles. L’impact des groupements des câbles est aussi étudié, avec un résultat étonnant où un groupe de deux câbles en nappe est trouvé mieux refroidis qu’un seul, lorsque ceux-ci sont placés en proche paroi de la galerie. A l’issue des travaux, une unique loi de refroidissement conservative est proposée, permettant de modéliser tous les cas traités. Cette loi a un impact important sur l’intensité maximale admissible des câbles, qui est dégradée de 5% à 9% par rapport à précédemment pour un cas idéalisé. / A critical analysis of the thermal rating of power cables in tunnels is carried out, with the study of factors of influence specific to cable laying constrains. The heat generation in the cables, due to the transiting current, is dissipated by an axial turbulent forced convection and by radiation with the tunnel walls. To characterize this cooling, an experimental mock-up tunnel has been designed, modelling various cables in a fully-developed turbulent flow. The results are compared and bolstered by 3D numerical simulations, developed under the OpenFOAM code. The studies have highlighted an important underestimation of the convective exchange by the existing standard. Their cooling law is actually a sum of the effects of racks supporting the cables, for a third, and the effect of a flow still underdeveloped for another third. The last third being the actual cooling of the cables. The impact of groups configurations is also studied, with an astonishing result for groups of two cables, which are better cooled than a single cable case, when installed close to a wall. Following the analysis, a single conservative cooling law is proposed to model all studied cases. This law has a significant impact on the permissible current in the cables, which is downgraded from 5% to 9% from previous ratings. Convection axiale forcée Écoulement turbulent développé Maquette Anémométrie fil chaud Analyse thermique locale Câbles d’énergie Dimensionnement thermique Galeries Axial forced convection Fully-Developed turbulent flow Mock-Up Hot-Wire anemometry Local heat transfer analysis Power cables Cable thermal rating Power tunnels
127	Thermo-mechanical Analysis of Laser Hot-wire Directed Energy Deposition (LHW-DED) Additive Manufacturing Process Kalel, Mukesh 03 May 2023 (has links) No description available. Mechanical Engineering Materials Science Engineering Aerospace Materials Direct Energy Deposition DED Additive Manufacturing AM Laser Hot wire Direct Energy Deposition LHW-DED Finite Element Modeling FEM Transient-Thermal ANSYS Simulation Transient-Structural Simulation Heat Transfer 3D Printing Simulation Thermal - Deformation Thermal - Distortion Thermal Validation Thermo-Mechanical Modeling
128	Výzkum vlastností materiálů pro použití ve vysokoteplotním solárním tepelně-akumulačním zásobníku / Material properties research for use in high-temperature solar thermal storage tank Šot, František January 2018 (has links) The use of thermal storage energy, using phase change materials appears to be an effective way to store thermal energy storage with the benefits of the high amount of energy while maintaining isothermal nature of the process. PCM methods are used in latent thermal storage systems for heat pumps, as well as in solar engineering or for temperature control in spacecraft. The past decade has extended these principles for cooling and heating in the building. There are a number of PCM systems, which operate over a wide temperature range, are used in various applications. This document includes a brief overview of the development and analysis of available thermal storage working mainly on the principle of PCM.
129	Kondenzační technika a odvody spalin / Condensing technology and flue gas Müller, Jan January 2014 (has links) This thesis is developed as a proposal for heating for a primary school and kindergarten in the region of Brno-countryside. For the insulated building, a combination of heating and air-conditioning is proposed. The concept is designed so that the air-conditioning preheats the exterior air and the heating system warms the incoming air to a comfortable temperature. For the required thermal performance, sources of heat (for gas and pellets) and a layout solution for the boiler room is designed. Drainage of combustion products is proposed for both solutions. The project solution is per the extent of the construction permit. The theoretical part is linked with the practical part through the condensation boilers, their function and division, and drainage of combustion products. The experiment for the given topic was conducted on the drainage of combustion products. The pressure loss of the reverse knob was determined in relation to the flow rate of air in the condensation boilers as this loss is essential in assessing the drainage of combustion products.

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