Global ETD Search

281	Análise experimental do efeito da geometria da seção transversal e do desempenho de fluidos de reduzido GWP na ebulição convectiva em canais de dimensões reduzidas / Experimental analysis of the cross-sectional geometry effect and low GWP refrigerants performance during convective boiling inside micro-scale channels Daniel Felipe Sempértegui Tapia 23 March 2016 (has links) A presente tese trata da análise experimental do efeito da geometria da seção transversal do canal e do desempenho de refrigerantes de reduzido GWP (Global Warming Potential) durante a ebulição convectiva em canais de reduzidas dimensões. A tese inclui ainda um estudo extenso e crítico da literatura sobre métodos de previsão da perda de pressão e do coeficiente de transferência de calor, e sobre estudos experimentais em canais não-circulares e de refrigerantes com reduzido GWP na ebulição convectiva em canais de dimensões reduzidas. Resultados para o coeficiente de transferência de calor e perda de pressão durante a ebulição convectiva foram obtidos para canais com geometrias de seção circular, quadrada e triangular para o refrigerante R134a. Nos testes utilizou-se canais com perímetros internos similares obtidos a partir da conformação de um tubo com diâmetro interno igual a 1,1 mm. No caso do canal circular, dados foram também levantados para os HFOs R1234ze(E) e R1234yf e o hidrocarboneto R600a, fluidos com reduzido GWP. Ensaios foram executados para amplas faixas de fluxos de calor e velocidades mássicas, temperaturas de saturação de 31 e 41°C e títulos de vapor entre 0 e 0,95. Aspectos relacionados aos efeitos da geometria e do fluido refrigerante foram minuciosamente investigados através da análise paramétrica dos resultados. Com base na comparação do banco de dados coletado com os métodos de previsão disponíveis na literatura, constatou-se que estes proporcionam previsões satisfatórias apenas para condições experimentais especificas. Portanto, novos métodos de previsão da perda de pressão e do coeficiente de transferência de calor foram desenvolvidos com base nos dados levantados no presente estudo. Os métodos propostos preveem satisfatoriamente o banco de dados do presente estudo e resultados independentes disponíveis na literatura. Adicionalmente, com base nos resultados levantados, verificou-se que dissipadores de calor baseados em multi-microcanais com canais de seção triangular apresentam desempenho superior comparados a dissipadores com canais quadrados e circulares. / The present thesis concerns an experimental study on the effects of cross-sectional geometry and low GWP refrigerants on the thermal-hydraulic performance for convective boiling inside micro-scale channels. Experimental results for heat transfer coefficient and pressure drop gradient during convective boiling were obtained for circular, square and triangular channels for the fluid R134a. The evaluated channels present the same external perimeter and equivalent diameters of 1.1, 0.977 and 0.835 mm, respectively. In the case of the circular geometry, experimental results were also acquired for the HFOs R1234ze(E) and R1234yf and the hydrocarbon R600a (isobutane), which are fluids with low GWP and null ODP. Experiments were performed for a wide range of heat fluxes and mass velocities, saturation temperatures of 31 and 41°C and vapor qualities up to 0.95. The experimental data were carefully analyzed and discussed based on a parametrical analysis focusing on the effect of the cross-sectional geometry and the working fluid. Subsequently, the experimental data were compared against the most quoted predictive methods from literature. In general, it was verified that none of the predictive methods were able to accurately capture the experimental trends of the overall database. So, new predictive methods for the pressure drop and heat transfer coefficient were developed based on the broad database obtained in the present study. The proposed methods provided satisfactory results not only for the experimental database used for its development, but also for independent databases collected in the literature. Additionally, based on the data obtained in the present study and a performance analysis taken into account pressure drop, heat transfer coefficient and the channel packing factor, triangular cross sectional geometry is recommended for heat sinks. Coeficiente de transferência de calor Ebulição convectiva Efeito da geometria Fluidos de reduzido GWP Fluidos naturais Microcanais Perda de pressão Convective boiling Geometry effect Heat transfer coeffcient Isobutane Low GWP fluids Micro-channels Pressure drop
282	Étude de l'influence de l'inertie thermique sur les performances énergétiques des bâtiments / Study of the impact of thermal mass on the energy performance of buildings Munaretto, Fabio 07 February 2014 (has links) Étant de plus en plus isolés, les bâtiments très performants sont très sensibles aux apports solaires transmis par les vitrages ainsi qu'aux apports internes. Dans ce contexte, l'inertie thermique peut être utile en stockant l'énergie excédentaire et en réduisant les variations de température, améliorant ainsi le confort thermique.Évaluer la performance énergétique, environnementale et le confort thermique des bâtiments nécessite des outils de simulation thermique dynamique (STD) fiables. Historiquement, les modélisateurs ont essayé de trouver un compromis approprié entre précision et efficacité. Des hypothèses simplificatrices ont alors été intégrées dans les outils STD et ont un lien étroit avec l'inertie thermique. La validité de telles hypothèses, notamment la globalisation des échanges convectifs et radiatifs GLO intérieurs, ou la distribution forfaitaire des apports solaires transmis par les vitrages nécessitent particulièrement d'être remises en questions dans le contexte des bâtiments très isolés.Ainsi, un modèle découplant les échanges convectifs et radiatifs GLO ainsi qu'un modèle de suivi de la tache solaire (modèles détaillés) ont été implémentés dans une plateforme de simulation mettant en œuvre l'analyse modale et une discrétisation par volumes finis.Une première comparaison entre les modèles détaillés et simplifiés a été réalisée sur des cas d'études du "BESTEST", intégrant aussi des résultats d'outils STD de référence au niveau international (EnergyPlus, ESP-r, TRNSYS). Un travail similaire a été réalisé sur le cas d'une maison passive instrumentée (plateforme INCAS à Chambéry) en utilisant des techniques d'analyses d'incertitudes et de sensibilité.Les résultats montrent qu'une tendance à la baisse concernant les besoins de chauffage et de refroidissement existe en ce qui concerne les modèles détaillés considérés ici. D'autre part, il semble que ces modèles détaillés ne contribuent pas à diminuer significativement les écarts entre les simulations et les mesures. / Being highly insulated, low energy buildings are very sensitive to variable solar and internal gains. In this context, thermal mass is useful by storing surplus energy and reducing temperature variation, thus improving thermal comfort.Assessing energy, environmental and thermal comfort performances requires reliable building dynamic thermal simulation (DTS) tools. Historically, model developers have tried to find a fair-trade between accuracy and simulation efficiency within a fit-to-purpose philosophy. Simplifying assumptions have therefore been integrated into DTS tools and have a close relation with thermal mass. The validity of such assumptions, for instance constant interior convective and infrared radiative superficial exchange coefficients, or fixed distribution of solar gains transmitted through windows, particularly need to be reassessed in the case of high performance buildings.A first comparison between detailed and simplified models has been performed according to the "BESTEST", integrating also international DTS reference tools (EnergyPlus, ESP-r, TRNSYS). Similar work, but using uncertainty and sensivitivity methods has been carried out using experimental measurements on a passive building (INCAS platform in Chambéry). The results show a trend for the detailed models studied here to estimate lower heating and cooling loads. Furthermore, it seems that these detailed models don't contribute to reduce significantly discrepancies between simulations and measurements. Bâtiments Inertie thermique Taches solaires Validation numérique et empirique Analyse de sensibilité et d'incertitude Building Thermal mass Energy performance Sunspot position Numerical and empirical validation Uncertainty and sensitivity analysis 620
283	Experimental study of third (HFC) and fourth generation (HFO) refrigerants during flow boiling in singularities / Etude expérimentale de la troisième (HFC) et quatrième génération (HFO) frigorigènes lors de l'écoulement bouillant dans les singularités Padilla Gomez, Miguel David 18 November 2011 (has links) La réduction de charge de fluides frigorigènes dans les systèmes de production de froid est un enjeu important s'inscrivant dans les politiques environnementales sur la contribution de ces fluides à l'effet de serre. Une des voies menant à la réduction de charge est l'augmentation de la compacité des échangeurs de chaleur, conduisant inévitablement à la conception d'évaporateurs plus complexes. Néanmoins, si de nombreuses études ont été publiées sur l'analyse thermo-hydraulique de l'ébullition convective de frigorigènes dans les tubes horizontaux, très peu ont été menées sur des écoulements diphasiques dans des géométries non conventionnelles. Cette thèse vise à étudier les caractéristiques des écoulements diphasiques avec changement de phase des frigorigènes de troisième (HFC) et de quatrième génération tels que le HFO-1234yf dans des singularités (coudes de retour, contractions). Ainsi, un banc d'essais expérimental a été spécifiquement conçu et construit pour mener des expériences sur l'ebullition convective. Ce banc d'essais a permis de visualiser les régimes d'écoulement et de mesurer les chutes de pression dans les singularités. Des visualisations de régimes d'écoulement ont été réalisées pour les frigorigènes HFO-1234yf, R-134a et R-410A dans des tubes droits et dans des singularités. Les résultats ont été confrontés avec diverses méthodes de prédiction de la litérature. Les perturbations sur l'écoulement causées par ces singularités et leurs effets sur le comportement hydrodynamique des fluides frigorigènes ont également été etudiés. Une serie d'éxperience a été menée pour déterminer le longueur de perturbation en amont et en aval des singularités. Finalement, les valeurs expérimentales des chutes de pression ont été confrontées à différentes corrélations de la littérature. Des nouvelles méthodes de prédiction de la chute de pression pour des écoulements diphasiques dans des singularités sont présentées. / The refrigerant charge reduction in HVAC\R systems is an important issue because it falls within environmental policies regarding refrigerants contributions to the greenhouse effect. A way to move toward charge reduction is to increase the compactness of heat exchangers, which means more complex designs of the evaporators. Nevertheless, while a large amount of studies have has been published on the thermal and hydraulic analysis of flow boiling of refrigerants in horizontal tubes, very little attention has been given to flow boiling in geometries different from straight tubes. This PhD thesis aims at studying the flow boiling characteristics of third generation (HFC) and fourth generation fluids such as HFO-1234yf in geometries which modify the fluid dynamics and two-phase flow with respect to horizontal straight tubes. To achieve this goal, an experimental test facility was specifically designed and built to conduct refrigerant evaporation experiments. This test facility allowed to perform flow regimes visualizations and pressure drop measurements in singularities (such as sudden contractions and return bends). First, two-phase flow regimes visualizations have been carried out using HFO-1234yf, R-134a and R-410A either in straight tubes or in singularities. A qualitative analysis of the flow behavior and also several comparisons to flow pattern prediction methods from the literature were conducted. The second objective of this work was to characterize the flow disturbances caused by singularities such as sudden contractions and return bends, and to study their effects on the hydrodynamic performance (e.g. pressure drop) of refrigerants.Lastly, pressure drop databases for third and fourth generation refrigerants are presented. Energétique Thermique Technologie du froid Fluides frigorigènes Fluides frigoporteurs Régime d'écoulement Ecoulement des fluides Ecoulement diphasique Hfc Chutte pression Hfo Ebullition convective Refrigerant Return bend Flow pattern Pressure drop 621.560 72
284	Untersuchung der Effektivität konduktiver versus konvektiver Wärmung von Patienten zur Vermeidung intraoperativer Hypothermie während radikaler Prostatektomie / Intraoperative hypothermia during radical prostatectomy - the efficacy of conductive versus convective patient warming Timphus, Anke 24 November 2014 (has links) No description available. 610 konvektive Wärmung konduktive Wärmung intraoperative Hypothermie perioperative Hypothermie intraoperative hypothermia convective warming conductive warming air warming perioperative hypothermia Medizin (PPN619874732)
285	Physikalisch modifizierte Stärke Treppe, Konrad 11 September 2017 (has links) (PDF) Es wird der Eigenschaftsbereich von thermisch modififizierter Kartoffelstärke erweitert und durch viele Proben sowie eine große Probenmenge verififiziert. Ziel ist es neue Möglichkeiten zur Optimierung der Stärke-Prozesskette zu erschließen und somit das industrielle Anwendungsspektrum für den Ausgangsstoff Stärke zu vergrößern. Native und konditionierte Kartoffelstärke werden auf neuartige Weise durch eine (Vakuum-)Mikrowellenbehandlung und durch eine konvektive Ofenbehandlung im Labormaßstab thermisch modififiziert. Um Einflussparameter auf die resultierende Eigenschaftsänderung zu identififizieren, werden das Quellungs- und Lösungsverhalten der Stärkeproben in wässriger Umgebung charakterisiert sowie das Stärkegel mikroskopisch untersucht. Eine Steigerung der variierten Behandlungsparameter (Behandlungsdauer und -temperatur bzw. -leistung) bewirkt unabhängig vom Behandlungsverfahren eine Zunahme der Quellung und der Löslichkeit. Die schlüssige grafifische Darstellung der Ergebnisse offenbart die Unterschiede zwischen den thermischen Verfahren. Bei der Mikrowellenbehandlung verursacht der ungehinderte Eintrag der Feldenergie in die Stärke eine erheblich schnellere Modififikation gegenüber der Ofenbehandlung. Bei der Vakuum-Mikrowellenbehandlung bewirkt der große Dampfdruck-Gradient eine intensivere Behandlung gegenüber der Mikrowellenbehandlung bei Atmosphärendruck. Mit den Verfahren können vorbestimmte Eigenschaften der Kartoffelstärke bewirkt werden, bspw. verursacht die Mikrowellenbehandlung eine geringere Löslichkeit als die Ofenbehandlung. Bei der Ofenbehandlung verringert eine Befeuchtung die Quellung und die Löslichkeit, was ähnlich dem Heat-Moisture-Effekt auf eine Modififikation der Stärkestruktur bei erhöhter Feuchte zusammen mit hoher Temperatur hindeutet. Die mikroskopische Geluntersuchung zeigt Unterschiede des Stärkegels für die verschiedenen Verfahren. Nach der Vakuum-Mikrowellenbehandlung brechen bei der Quellung einzelne Körner im Glasübergangsstadium auf und die Kornfragmente sind als Schlieren sichtbar. thermische Behandlung physikalische Modifikation Mikrowelle Vakuum Ofen konvektive Behandlung Stärke Kartoffelstärke Trocknung Lösungsverhalten Quellungsverhalten thermal treatment physical modification microwave vacuum ofen convective treatment starch potato starch drying solubility swelling water binding capacity ddc:620 rvk:VN 8937
286	Land Use /Land Cover Driven Surface Energy Balance and Convective Rainfall Change in South Florida Kandel, Hari P 01 July 2015 (has links) Modification of land use/land cover in South Florida has posed a major challenge in the region’s eco-hydrology by shifting the surface-atmosphere water and energy balance. Although drainage and development in South Florida took place extensively between the mid- and late- 20th century, converting half of the original Everglades into agricultural and urban areas, urban expansion still accounts for a dominant mode of surface cover change in South Florida. Changes in surface cover directly affect the radiative, thermophysical and aerodynamic parameters which determine the absorption and partitioning of radiation into different components at the Earth surface. The alteration is responsible for changing the thermal structure of the surface and surface layer atmosphere, eventually modifying surface-induced convection. This dissertation is aimed at analyzing the extent and pattern of land cover change in South Florida and delineating the associated development of urban heat island (UHI), energy flux alteration, and convective rainfall modification using observed data, remotely sensed estimates, and modeled results. Urban land covers in South Florida are found to have increased by 10% from 1974 to 2011. Higher Landsat-derived land surface temperatures (LST) are observed in urban areas (LSTu-r =2.8°C) with satisfactory validation statistics for eastern stations (Nash-Sutcliffe coefficient =0.70 and R2 =0.79). Time series trends, significantly negative for diurnal temperature range (DTR= -1°C, p=0.005) and positive for lifting condensation level (LCL > 20m) reveal temporal and conspicuous urban-rural differences in nocturnal temperature (ΔTu-r = 4°C) shows spatial signatures of UHI. Spatially higher (urban: 3, forest: 0.14) and temporally increasing (urban: 1.67 to 3) Bowen’s ratios, and sensible heat fluxes exceeding net radiation in medium and high-intensity developed areas in 2010 reflect the effect of urbanization on surface energy balance. Radar reflectivity-derived surface-induced convective rainfall reveals significantly positive mean differences (thunderstorm cell density: 6/1000 km2and rain rate: 0.24 mm/hr/summer, p < 0.005) between urban and entire South Florida indicating convective enhancement by urban covers. The research fulfils its two-fold purposes: advancing the understanding of post-development hydrometeorology in South Florida and investigating the spatial and temporal impacts of land cover change on the microclimate of a subtropical city. Land Use /Land Cover UHI Radiosonde Landsat Lifting Condensation Level Energy Flux Sensible Heat Flux Latent Heat Flux Ground Heat Flux Bowen’s Ratio Evapotranspiration Apparent Thermal Inertia Albedo Radar Reflectivity Convective Rainfall South Florida Earth Sciences
287	Study Of Solidification And Microstructure Produced By Cooling Slope Method Kund, Nirmala Kumar 09 1900 (has links) (PDF) In most casting applications, dendritic microstructure morphology is not desired because it leads to poor mechanical properties. Forced convection causing sufficient shearing in the mushy zone of the partially solidified melt is one of the means to suppress this dendritic growth. The dendrites formed at the solid-liquid interface are detached and carried away due to strong fluid flow to form slurry. This slurry, consisting of rosette or globular particles, provides less resistance to flow even at a high solid fraction and can easily fill the die-cavity. The stated principle is the basis of a new manufacturing technology called “semi-solid forming” (SSF), in which metal alloys are cast in the semi-solid state. This technique has numerous advantages over other existing commercial casting processes, such as reduction of macrosegregation, reduction of porosity and low forming efforts. Among all currently available methods available for large scale production of semisolid slurry, the cooling slope is considered to be a simple but effective method because of its simple design and easy control of process parameters, low equipment and running costs, high production efficiency and reduced inhomogeneity. With this perspective, the primary objective of the present research is to investigate, both experimentally and numerically, convective heat transfer and solidification on a cooling slope, in addition to the study of final microstructure of the cast billets. Some key process parameters are identified, namely pouring temperature, slope angle, slope length, and slope cooling rate. A systematic scaling analysis is performed in order to understand the relative importance of the parameters in influencing the final properties of the slurry and microstructure after solidification. A major part of the present work deals with the development of an experimental set up with careful consideration of the range of process parameters involved by treating the cooling slope as a heat exchanger. Subsequently, a comprehensive numerical model is developed to predict the flow, heat transfer, species concentration solid fraction distribution of aluminum alloy melt while flowing down the cooling slope. The model uses a variable viscosity relation for slurry. The metal-air interface at the top during the melt flow is tracked using a volume of fluid (VOF) method. Solidification is modeled using an enthalpy based approach and a volume averaged technique. The mushy region is modeled as a multi-layered porous medium consisting of fixed columnar dendrites and mobile equiaxed or fragmented grains. In addition, the solidification model also incorporates a fragmentation criterion and solid phase movement. The effects of key process parameters on flow behavior involving velocity distribution, temperature distribution, solid fractions at the slope exit, and macrosegregation, are studied numerically and experimentally for aluminium alloy A356. The resulting microstructures of the cast billets obtained from the experiments are studied and characterized. Finally the experimental results are linked to the model predictions for establishing the relations involving interdependence of the stated key process parameters in determining the quality of the final cast products. This study is aimed towards providing the necessary guidelines for designing a cooling slope and optimizing the process parameters for desirable quality of the solidified product. Semi Solid Forming Metal Alloys Casting Convective Heat Transfer Solidification Cooling Slope Method Aluminium Alloys - Solidification Alloys - Solidification Non-Dendritic Microstructures Semisolid Slurry Metal Alloys Semi-solid Forming (SSF) Semi Solid Processing Metallurgy
288	Flow Obstruction Effects on Heat Transfer in Channels at Supercritical and High Subcritical Pressures Eter, Ahmad January 2016 (has links) The objective of this thesis research is to improve our understanding of the flow obstacle effect on heat transfer at supercritical and high subcritical pressures by experimentally studying the effect of different obstacles on heat transfer in two vertical upward-flow test sections: a 3-rod bundle and an 8 mm ID tube. The heat transfer measurements cover the region of interest of the Canadian Super-critical Water Cooled Reactor (SCWR). A thorough analysis of the obstacle effect on supercritical heat transfer (SCHT) was performed. In the 3-rod bundle, two types of obstacles were employed: wire wraps and low-impact grid spacers. Wire wraps were found to be more effective than grid spacers to enhance the SCHT. In the tubular test section, obstacles appeared to suppress the heat transfer deterioration (HTD) or decrease its severity; obstacles also generally enhanced the SCHT both in the liquid-like and the gas- like region. The experiment in the tubular test section revealed that, at certain flow conditions (low mass flux, low inlet subcooling), flow obstacles can have an adverse impact on the SCHT. A criterion to predict the onset of this adverse effect was developed. At high subcritical pressures, obstacles increased the CHF and reduced the maximum post-CHF temperature. A comparison of the experimental data with prediction methods for the SCHT, single phase heat transfer, CHF and post-dryout heat transfer was performed. Lastly, a new correlation to predict the enhancement in SCHT due to obstacles was developed for heat transfer in the liquid-like and gas-like regions. Convective heat transfer Experimental data Carbon dioxide Heat transfer deterioration Rod bundle and tube test sections Wire wrap and grid spacers Blunt obstacles
289	Um esquema upwind polinomial por partes para problemas em mecânica dos fluidos / A piecewise polynomial upwind scheme for problems in fluid mechanics Patrícia Sartori 20 April 2011 (has links) Este trabalho de pesquisa é dedicado ao desenvolvimento, análise e implementação de um novo esquema upwind de alta resolução (denominada PFDPUS) para a aproximação de termos convectivos em leis de conservação e problemas relacionados em mecânica dos fluídos. Usando variáveis normalizadas de Leonard, o equema PFDPUS é baseado em uma função polinomial por partes que satisfaz os critérios de estabilidade CBC e TVD. O desempenho do esquema PEDPUS é investigado na solução das equações de advecção de escalares, Burgers, Euler e MHD. O novo esquema é então aplicado para simular escoamentos incompressíveis envolvendo superfícies livres móveis. Para tanto, o esquema PFDPUS é implementado dentro do software CLAWPACK para problemas compressíveis, e no código Freeflow para poblemas incompressíveis. Os resultados numéricos são comparados com dados experimentais, numéricos e analíticos / This work is dedicated to the development, analysis and implementation of a new high-resolution upwind scheme (called PFDPUS) for approximation of convective terms in conservation laws and related fluid mechanics problems. By using the normalized variables of Leonard, the PFDPUS scheme is based on a piecewise polynomical function that satisfies the CBC and TVD stability criteria. The performance of the PFDPUS scheme is assessed by solving advection of scalars, Burgers, Euler and MHD equations. Then the new scheme is applied to simulate incompressible flows involving moving free surfaces. The PFDPUS scheme is implemented into the CLAWPACK software for compressible problems, and in the Freeflow code for incompressible problems. The numerical results are compared with experimental, numerical and analytical data Equações de Navier-Stokes Escoamentos incompressíveis Esquemas CBC/TVD Simulação numérica Transporte convectivo CBC/TVD schemes Convective transport High resolution upwind scheme Incompressible flows Navier-Stokes equations Numerical simulation
290	Um novo esquema upwind de alta resolução para equações de conservação não estacionárias dominadas por convecção / A new high-resolution upwind scheme for non stationary conservation equations dominated by convection Laís Corrêa 29 March 2011 (has links) Neste trabalho apresenta-se um novo esquema prático tipo upwind de alta resolução, denominado EPUS (Eight-degree Polynomial Upwind Scheme), para resolver numericamente equações de conservação TVD e é implementado no contexto do método das diferenças finitas. O desempenho do esquema é investigado na resolução de sistemas hiperbólicos de leis de conservação e escoamentos incompressíveis complexos com superfícies livres. Os resultados numéricos mostraram boa concordãncia com outros resultados numéricos e dados experimentais existentes / Is this work a new practical high resolution upwinding scheme, called EPUS (Eight-degree Polynomial Upwind Scheme), for the numerical solution of transient convection-dominated conservation equations is present. The scheme is based on TVD stability criterion and is implemented in the context of the finite difference methodology. The performance of the scheme is investigated by solving hyperbolic systems of conservation laws and complex incompressible flows with free surfaces. The numerical results displayed good agreement with other existing numerical and experimental data Equações de Navier-Stokes Esquemas convectivos Leis de conservação Modelo '\kappa' - '\epsilon'E Upwinding '\kappa' - 'epsilon' model Conservation laws Convective schemes Free surface flows Navier-Stokes equations Upwinding

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