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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Vliv provozních parametrů na kvalitu rozprašování kapalin u dvou-médiových trysek / Influence of operational conditions on spray characteristics of twin-fluid atomizers

Zaremba, Matouš January 2013 (has links)
This master’s thesis deals with measurement of spray characteristics of Effervescent atomizers intended for burning waste and heavy fuels. Atomizers were tested on cold test bench by means of Phase Doppler Anemometry. Spray characteristics were evaluated for many different regimes of pressure, temperature and Gas to liquid ratio. The aim of this measurement is to compare flow regimes and their influence on the quality of spray characteristics. The theoretical part describes basic fundamental principles of liquid atomization, effervescent atomization and principles of laser diagnostic methods. The practical part is engaged with improvements in test bench and setting up and optimization of the laser measuring system. Results contain visualization of spray, velocity profiles and drop size distribution in various operating flow regimes of the jet.
12

Near Wall Investigation of Three Dimensional Turbulent Boundary Layers

Kuhl, David Derieg 22 August 2001 (has links)
This report documents the experimental study for four different three-dimensional turbulent flows. The investigation focuses on near wall measurements in these flows. Several experimental techniques are used in the studies; however, the bulk of the investigation focuses on a three-orthogonal-velocity-component fiber-optic laser Doppler anemometer (3D-LDA) system. The control volume of the 3D-LDA is on the order of 50 micro-meter in size, or a y<sup>+</sup> distance of around 2.3 units (using average values of U<sub>&#964</sub> and &#957; from the experiment). An auxiliary small boundary layer wind tunnel (auxiliary tunnel) and a low speed linear compressor cascade wind tunnel (cascade tunnel) are utilized in this study. One of four flow experiments is done in the auxiliary tunnel the other three are in the cascade tunnel. The first three-dimensional turbulent flow is a vortical flow created by two half-delta wing vortex generators. Near wall secondary flow features are found. The second flow is an investigation of the first quarter chord tip gap flow in the cascade tunnel. Strong three-dimensional phenomena are found. The third flow investigated is the inflow to the compressor cascade with the moving wall. The experiment records shear layer interaction between the upstream flow and moving wall. Finally the fourth flow investigated is the inflow to the compressor cascade with the moving wall with half-delta wing vortex generators attached. Phase-averaged data reveal asymmetrical vortex structures just downstream of the vortex generators. This is the first time any near wall data has been taken on any of these flows. / Master of Science
13

Development of Specialized Laser Doppler Velocimeters for High Resolution Flow Profile and Turbulence Spectral Measurements

Brooks, Donald Ray 05 June 2014 (has links)
Fluid dynamicists are always in need of innovative instruments for flow velocity measurements. An ideal instrument would be non-intrusive, have a very fine spatial resolution as well as a very fine temporal resolution, be able to measure three-components of velocity, and be compact. Through recent advancements, laser Doppler velocimetry can now meet all of those requirements making it an important part of aerodynamicist's research toolbox. The first paper presented in this manuscript style thesis explains the development of an advanced three-velocity component, spatially-resolving laser-Doppler velocimetry (LDV) system for highly resolved velocity measurements in situations with limited optical access. The new instrument, a next generation version of the previously developed 'comprehensive' LDV technology, enables measurements of three components of velocity and particle position in the axial direction all through a single transceiving lens. Described here is the design process and the final design for the 'compact, comprehensive' LDV (Comp²LDV). The probe was designed to achieve ± 10 micron root-mean-square uncertainties in axial particle position, which combined with the long measurement volume, allow researchers to obtain a three-velocity-component velocity statistics profiles over a span of approximately 1.5mm without the need for traversing. Results from measurements in a flat plate turbulent boundary layer very near the wall have compared favorably to data from previous studies. The second paper focuses on the motion and evolution of coherent structures in supersonic jet flows and how that relates to the intense noise the flows generate. As a preliminary study to experimentally address these relationships, novel non-intrusive measurements using two-component laser Doppler velocimetry (LDV) have been conducted at exceptionally high data rates to lend insight into the statistical behavior of noise-generating flow structures. A new heated supersonic jet facility has been constructed to provide supersonic flow at total temperatures ratios (T₀/Tₐ) up to 3. In the present work, the instrumentation is validated via comparison of LDV measurements along the centerline of a screeching cold jet with microphone and high-speed shadowgraph results. Reynolds stress spectra are presented for an over-expanded case (nozzle pressure ratio of 3.2) of a design Mach number 1.65 nozzle operated cold (T₀/Tₐ = 1). A preliminary study was then conducted in the near-nozzle shear layer, up to x/d = 4.0, at design nozzle pressure ratio (4.58) and total temperature ratio of 2.0. Results are presented for Reynolds stress time-delay correlations and power spectra at Re_d = 1.1M for this case. The stream-wise Reynolds normal stress spectra are compared with published spectral behavior reported by other researchers, indicating a similar spectral shape in the downstream stations as previously measured with LDV and hot wire anemometry for cold jets, but which differ in shape from density-based techniques. / Master of Science
14

Extreme waves, overtopping and flooding at sea defences

Raby, Alison Caroline January 2003 (has links)
This thesis describes experiments that were carried out using focused wave groups in the UK Coastal Research Facility (UKCRF). Considerable effort was put into calibrating the UKCRF to determine the relationship between the input signals sent to the paddles and the waves generated in the facility. Focused wave groups of various sizes and phases, based on NewWave theory were generated, and measurements were made of the resulting surface elevation data, water particle kinematics, wave runup and overtopping volumes. NewWave theory models the profile of extreme waves in a Gaussian (random) sea. The thesis describes the first time this model has been applied in the context of coastal wave transformation. A method for the separation of the underlying harmonic structure of a focused wave group is described and results presented. This technique has been used in relatively deep water but is shown to work successfully in the coastal zone until wave overturning. A method has been devised to provide a theoretical Stokes-like expansion of the free and bound waves to model the surface elevation and water particle kinematics of the focused wave groups. Satisfactory agreement is achieved between the theoretical predictions of UKCRF measurements. Suggestions are made for an improved model. The underlying harmonic structure of the focused wave groups is presented as stacked time histories that give insight into the wave transformation process from deep to shallow water. Particular attention is paid to the low frequency wave generated as the wave group interacts with the beach. This is compared to the low frequency wave that is generated by a solitary wave in the UKCRF. Runup and overtopping measurements are in reasonable agreement with predictions based on certain empirical formulae, but not others. These comparisons are useful in identifying those formulae able to predict runup and overtopping of extreme waves in the coastal zone.
15

Near-Field Study of Multiple Interacting Jets : Confluent Jets

Ghahremanian, Shahriar January 2015 (has links)
This thesis deals with the near-field of confluent jets, which can be of interest in many engineering applications such as design of a ventilation supply device. The physical effect of interaction between multiple closely spaced jets is studied using experimental and numerical methods. The primary aim of this study is to explore a better understanding of flow and turbulence behavior of multiple interacting jets. The main goal is to gain an insight into the confluence of jets occurring in the near-field of multiple interacting jets. The array of multiple interacting jets is studied when they are placed on a flat and a curved surface. To obtain the boundary conditions at the nozzle exits of the confluent jets on a curved surface, the results of numerical prediction of a cylindrical air supply device using two turbulence models (realizable 𝑘 − 𝜖 and Reynolds stress model) are validated with hot-wire anemometry (HWA) near different nozzles discharge in the array. A single round jet is then studied to find the appropriate turbulence models for the prediction of the three-dimensional flow field and to gain an understanding of the effect of the boundary conditions predicted at the nozzle inlet. In comparison with HWA measurements, the turbulence models with low Reynolds correction (𝑘 − 𝜖 and shear stress transport [SST] 𝑘 − 𝜔) give reasonable flow predictions for the single round jet with the prescribed inlet boundary conditions, while the transition models (𝑘 − 𝑘l − 𝜔𝜔 and transition SST 𝑘 − 𝜔) are unable to predict the flow in the turbulent region. The results of numerical prediction (low Reynolds SST 𝑘 − 𝜔 model) using the prescribed inlet boundary conditions agree well with the HWA measurement in the nearfield of confluent jets on a curved surface, except in the merging region. Instantaneous velocity measurements are performed by laser Doppler anemometry (LDA) and particle image velocimetry (PIV) in two different configurations, a single row of parallel coplanar jets and an inline array of jets on a flat surface. The results of LDA and PIV are compared, which exhibit good agreement except near the nozzle exits. The streamwise velocity profile of the jets in the initial region shows a saddle back shape with attenuated turbulence in the core region and two off-centered narrow peaks. When confluent jets issue from an array of closely spaced nozzles, they may converge, merge, and combine after a certain distance downstream of the nozzle edge. The deflection plays a salient role for the multiple interacting jets (except in the single row configuration), where all the jets are converged towards the center of the array. The jet position, such as central, side and corner jets, significantly influences the development features of the jets, such as velocity decay and lateral displacement. The flow field of confluent jets exhibits asymmetrical distributions of Reynolds stresses around the axis of the jets and highly anisotropic turbulence. The velocity decays slower in the combined regio  of confluent jets than a single jet. Using the response surface methodology, the correlations between characteristic points (merging and combined points) and the statistically significant terms of the three design factors (inlet velocity, spacing between the nozzles and diameter of the nozzles) are determined for the single row of coplanar parallel jets. The computational parametric study of the single row configuration shows that spacing has the greatest impact on the near-field characteristics.
16

Měření dynamických charakteristik zpětných armatur / Measurement of dynamic characteristic of check valves

Novák, Jan January 2017 (has links)
Master thesis presents overview of existing types of check valves, their features, uses and issue called "cracking". Experimental part of this thesis focuses on the lift and swing check valves. Results of the measurement are evaluated from non-stationary flow point of view by developing and analyzing static and dynamic characteristics. This thesis takes into account losses and dynamic effects as main viewpoints. Two methods for measuring non-stationary velocities are used. Direct method called Gibson and indirect method laser doppler anemometry. Goal of the master thesis is to increase understanding of the check valves and their applicability.
17

Design and application of a novel Laser-Doppler Velocimeter for turbulence structural measurements in turbulent boundary layers

Lowe, K. Todd 20 November 2006 (has links)
An advanced laser-Doppler velocimeter is designed to acquire fully-resolved turbulence structural measurements in high Reynolds number two- and three-dimensional turbulent boundary layers. The new instrument combines, for the first time, new techniques allowing for the direct measurement of particle acceleration and sub-measurement-volume-scale position resolution so that second-order 3D particle trajectories may be measured at high repetitions. Using these measurements, several terms in the Reynolds stress transport equations may be directly estimated, giving new data for modeling and understanding the processes leading to the transport of turbulence in boundary layer flows. Due to the unique performance of the probe, many aspects of LDV instrumentation development were addressed. The LDV configuration was optimized for lowest uncertainties by considering the demanding applications of particle position and acceleration measurements. Low noise light detection and signal conditioning was specified for the three electronic channels. A high-throughput data acquisition system allows for exceptional burst rate acquisition. Signal detection and processing algorithms have been implemented which draw from previous techniques but also address distinctive problems with the current system. In short, the instrument was designed to advance the state-of-the-art in LDV systems. Measurements presented include turbulence dissipation rate and fluctuating velocity-pressure gradient correlations that have been measured in 2D and 3D turbulent boundary layers using the unique capabilities of the CompLDV--many of these measurements are the first of their kind ever acquired in high Reynolds number turbulent flows. The flat-plate turbulent boundary layer is studied at several momentum thickness Reynolds numbers up to 7500 to examine Reynolds numbers effects on terms such as the velocity-pressure gradient correlation and the dissipation rate in the Reynolds transport equations. Measurements are also presented in a pressure-driven three-dimensional turbulent boundary layer created upstream from a wing-body junction. The current results complement the extensive data from previous studies and provide even richer depth of knowledge on the most-completely-documented 3D boundary layer flow in existence. Further measurements include the wakes of three circular-cylinder protuberances submerged in a constant pressure turbulent boundary layer. / Ph. D.
18

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.
19

Numerical and experimental study of confluent jets supply device with variable airflow

Andersson, Harald January 2019 (has links)
In recent years, application of confluent jets for design of ventilation supply devices has been studied. Similarly, numerus studies have been made on the potential and application of variable air volume (VAV) in order to reduce the energy demand of ventilation systems. This study investigates the combination of supply devices based on confluent jets and VAV, both in terms of the nearfield flow behavior of the device and the impact on thermal comfort, indoor air quality and energy efficiency on a classroom-level space when the airflow rate is varied. The method used in this study is an experimental field study where the confluent jets-based supply devices were compared to the previously installed displacement ventilation. The field study evaluated the energy efficiency, thermal comfort and indoor air quality of the two systems. In the case of the confluent jets supply devices, airflow rate was varied in order to see what impact the variation had on the performance of the system for each airflow rate. Furthermore, the confluent jets supply devices were investigated both experimentally and numerically in a well insulated test room to get high resolution data on the particular flow characteristics for this type of supply device when the airflow rate is varied. The results from the field study show nearly uniform distribution of the local mean age of air in the occupied zone, even in the cases of relatively low airflow rates. The airflow rates have no significant effect on the degree of mixing. The thermal comfort in the classroom was increased when the airflow rate was adapted to the heat load compared to the displacement system. The results lead to the conclusion that the combination of supply devices based on confluent jets can reduce energy usage in the school while maintaining indoor air quality and increasing the thermal comfort in the occupied zone. The results from the experimental and numerical study show that the flow pattern and velocity in each nozzle is directly dependent on the total airflow rate. However, the flow pattern does not vary between the three different airflow rates. The numerical investigation shows that velocity profiles for each nozzle have the same pattern regardless of the airflow rate, but the magnitude of the velocity profile increases as the airflow increases. Thus, a supply device of this kind could be used for variable air volume and produce confluent jets for different airflow rates. The results from both studies show that the airflow rate does not affect the distribution of the airflow on both near-field and room level. The distribution of air is nearly uniform in the case of the near-field results and the room-level measurement shows a completely uniform degree of mixing and air quality in the occupied zone for each airflow rate. This means that there is potential for combining these two schemes for designing air distribution systems with high energy efficiency and high thermal comfort and indoor air quality. / Under senare tid har applikation av Confluent jets för design av tilluftsdon studerats. Många studier har även utförts över potentialen av att applicera variabelt luftflöde (VAV) för att minska energianvändningen i ventilationssystem. Denna studie undersöker möjligheten att kombinera Confluent jets-don med VAV, både med avseende på den lokala flödesbilden och dess påverkan på termisk komfort, luftkvalitet och energieffektivitet i en klassrumsmiljö där luftflödes varieras. Denna studie baseras dels på en experimentell fältstudie där tilluftsdon baserade på Confluents jets jämfördes med befintliga deplacerande tilluftsdon. Fältstudien utvärderade energieffektiviteten, den termiska komforten och luftkvaliteten för båda typerna av tillluftsdon. Confluent jets-donen testades under varierat luftflöde för att se påverkan av flödesvariationen på ventilationens prestation under de olika flödena. Utöver fältstudien testades Confluent jets-donen experimentellt och numeriskt i ett välisolerat test-rum för få den detaljerade flödeskarakteristiken för den här typen tilluftsdon vid varierat luftflöde. Resultaten från fältstudien visar på en jämn fördelning av den lokala luftsmedelåldern i vistelsezonen, även för fallen med relativt låga luftflöden. Luftflöden har ingen signifikant effekt på omblandningen. Den termiska komforten i klassrummet ökade när luftflödet anpassades efter värmelasten jämfört med de deplacerande donen. Slutsatsen från fältstudien är att kombinationen av VAV och Confluent jets-don kan användas för att minska energianvändningen på skolan och bevara luftkvaliteten och den termiska komforten i vistelsezonen. Resultaten från den experimental och numeriska studien visar luftflödet och lufthastigheten i varje enskild dysa är direkt beroende på det totala luftflödet genom donet. Dock är flödesfördelningen mellan dysorna oberoende av de tre olika luftflödena. Den numeriska undersökningen visar att flödesprofilen för varje dysa är konstant trots att flödet varieras, men amplituden för varje profil ökar med en höjning av luftflödet. Det betyder att tilluftsdon av den här typen kan användas med VAV för att producera Confluent jets för olika luftflöden. Resultaten från båda studierna visar att luftflöde inte påverkar fördelningen av luften vare sig längs luftdonen eller på rumsnivå. Fördelningen av luften är nästan helt jämn längs donen och på rumsnivå är omblandningen och luftkvalitet den samma för varje luftflöde. Det betyder att det finns potential för att kombinera det här två teknikerna för att designa luftdistribueringssystem med hög energieffektivitet och hög termisk komfort med god luftkvalitet.
20

Aerothermal Characterisation of Surface Heat Exchangers for Turbofans

Felgueroso Rodríguez, Andrés 04 September 2023 (has links)
[ES] En un presente marcado por la continua lucha contra la contaminación y el cambio climático, la investigación en mejoras tecnológicas que permitan una transición aceptable para la sociedad hacia un futuro más ecológico ocupa un papel fundamental. En concreto, la aviación es un foco constante de innovación, ya que es considerada una función indispensable en una sociedad tan globalizada como la actual, pero con unos niveles de contaminación preocupantes. En este aspecto, el desarrollo de motores con altas eficiencias es un paso clave para la transición medioambiental. Sin embargo, estas alternativas presentan un reto tecnológico en cuanto a su gestión térmica basado, principalmente, en la necesidad de aumentar la refrigeración. En este contexto e impulsada por el proyecto "Aerodynamic upgrade of Surface Air Cooled Oil Cooler (SACOC)" de Clean Sky 2, esta tesis doctoral se centra en el estudio experimental de geometrías de intercambiadores de calor de superficie para la refrigeración del aceite motor mediante el uso del aire del flujo secundario del turbofan. Actualmente, existen una serie de limitaciones en cuanto a las capacidades para llevar a cabo un análisis y diseño detallado de este tipo de intercambiadores de calor debido a la falta de instalaciones que permitan un correcta, completa y robusta caracterización experimental. Las principales fuentes de datos se basan en cálculos numéricos validados a partir de extrapolaciones en condiciones de cuestionable aplicabilidad. A lo largo de la tesis se presentan los resultados obtenidos tras una detallada caracterización de cuatro diferentes geometrías de intercambiadores de calor empleando tanto técnicas intrusivas como ópticas. Se utiliza un banco de flujo capaz de generar una corriente de aire típica alrededor de los intercambiadores, mientras que un sistema de acondicionamiento de aceite controla el punto de operación por el lado caliente. Para recrear de manera más realista las condiciones de funcionamiento, se presenta una metodología para generar de manera automática pantallas de distorsión que pueden reproducir una distribución bidimensional de velocidades objetivo mediante la manufactura aditiva de paneles de porosidad variable. Este modelo, analizado mediante CFD y validado experimentalmente, se utiliza para reproducir el perfil de velocidades típico presente en torno al intercambiador en una circunstancia real de operación. Tras definir métricas relevantes que permitan analizar el comportamiento de las distintas geometrías, se llega a la conclusión de que los problemas aerodinámico y térmico están altamente acoplados en estos dispositivos, demostrando la necesidad de un cuidadoso diseño para mejorar las actuaciones del intercambiador. Los resultados muestran que puede llegar a obtenerse una mejora de más de un 12% en la caída de presión y casi un 20% en el intercambio de calor. Además, se ha confirmado el impacto del uso de la pantalla de distorsión, con variaciones del orden de 10% en ambas variables. Los resultados también muestran que es posible realizar una caracterización preliminar de manera fiable con un modelo impreso en 3D, en cuanto campos de velocidades, pérdidas de presión y frecuencias propias corregidas. Con el análisis llevado a cabo en esta tesis, se puede concluir que es fundamental tener una instalación experimental que reproduzca las condiciones de funcionamiento reales de un motor para realizar estudios relevantes de intercambiadores de calor. Además, es necesario el uso de métricas adecuadas junto con el desarrollo de una metodología exhaustiva, fiable y robusta. Los resultados y metodología presentados en en esta investigación pueden llegar a tener un impacto importante tanto a nivel académico como industrial, ya que abren la puerta a desarrollar sistemas de gestión térmica más eficiente en unas etapas de diseño preliminares que son más asequibles económicamente, consumen menos tiempo y tienen mayor flexibilidad para introducir modificaciones. / [CAT] En un present marcat per la lluita contínua contra la contaminació i el canvi climàtic, la recerca en millores tecnològiques que permetin una transició acceptable per a la societat cap a un futur més ecològic ocupa un paper fonamental. En concret, l'aviació és un focus constant d'innovació, ja que és considerada una funció indispensable en una societat tan globalitzada com l'actual però amb uns nivells de contaminació preocupants. En aquest aspecte, el desenvolupament de motors amb altes eficiències és un pas clau per a la transició mediambiental. Tot i això, aquestes alternatives presenten un repte tecnològic quant a la seva gestió tèrmica basat, principalment, en la necessitat d'augmentar la refrigeració. En aquest context i impulsada pel projecte "Aerodynamic upgrade of Surface Air Cooled Oil Cooler (SACOC)" de Clean Sky 2, aquesta tesi doctoral se centra en l'estudi experimental de geometries d'intercanviadors de calor de superfície per a la refrigeració de l'oli motor mitjançant l'ús de l'aire del flux secundari del turbofan. Actualment, hi ha una sèrie de limitacions quant a les capacitats per dur a terme una anàlisi i disseny detallat d'aquest tipus d'intercanviadors de calor a causa de la manca d'instal·lacions que permetin una caracterització experimental correcta, completa i robusta. Les fonts de dades principals es basen en càlculs numèrics validats a partir d'extrapolacions en condicions de qüestionable aplicabilitat. Al llarg de la tesi es presenten els resultats obtinguts després d'una detallada caracterització de quatre geometries diferents d'intercanviadors de calor emprant tant tècniques intrusives com òptiques. Sutilitza un banc de flux capaç de generar un corrent daire típic al voltant dels intercanviadors, mentre que un sistema de condicionament doli controla el punt doperació pel costat calent. Per recrear de manera més realista les condicions de funcionament, es presenta una metodologia per generar de manera automàtica pantalles de distorsió que poden reproduir una distribució bidimensional de velocitats objectiu mitjançant la manufactura additiva de panells de porositat variable. Aquest model, analitzat mitjançant CFD i validat experimentalment, sutilitza per reproduir el perfil de velocitats típic present al voltant de lintercanviador en una circumstància real doperació. Després de definir mètriques rellevants que permetin analitzar el comportament de les diferents geometries, s'arriba a la conclusió que els problemes aerodinàmic i tèrmic estan altament acoblats en aquests dispositius, demostrant la necessitat d'un disseny acurat per millorar les actuacions de l'intercanviador. Els resultats mostren que es pot arribar a obtenir una millora de més d'un 12% a la caiguda de pressió i gairebé un 20% a l'intercanvi de calor. A més, s'ha confirmat l'impacte de l'ús de la pantalla de distorsió, amb variacions de l'ordre del 10% a les dues variables. Els resultats també mostren que és possible fer una caracterització preliminar de manera fiable amb un model imprès en 3D, en tant que camps de velocitats, pèrdues de pressió i freqüències pròpies corregides. Amb l'anàlisi duta a terme en aquesta tesi, es pot concloure que és fonamental tenir una instal·lació experimental que reprodueixi les condicions de funcionament reals d'un motor per fer estudis rellevants d'intercanviadors de calor. A més, cal fer servir mètriques adequades juntament amb el desenvolupament d'una metodologia exhaustiva, fiable i robusta. Els resultats i metodologia presentats en aquesta investigació poden arribar a tenir un impacte important tant a nivell acadèmic com industrial, ja que obren la porta a desenvolupar sistemes de gestió tèrmica més eficient en unes etapes de disseny preliminars que són més assequibles econòmicament, consumeixen menys temps i tenen més flexibilitat per introduir modificacions. / [EN] In a present marked by the continuous fight against pollution and climate change, research into technological improvements that allow an acceptable transition for society towards a greener future occupies a fundamental role. Specifically, aviation is a constant focus of innovation, since it is considered an essential function in a society as globalized as today's, but with worrying levels of pollution. In this regard, the development of motors with high efficiencies is a key step for the environmental transition. However, these alternatives present a technological challenge in terms of their thermal management, based mainly on the need to increase cooling. In this context and promoted by the Clean Sky 2 "Aerodynamic upgrade of Surface Air Cooled Oil Cooler (SACOC)" project, this doctoral thesis focuses on the experimental study of surface heat exchanger geometries for engine oil cooling using the use of secondary flow air from the turbofan. Currently, there are a number of limitations regarding the capacity to carry out a detailed analysis and design of this type of heat exchanger due to the lack of facilities that allow a correct, complete and robust experimental characterization. The main data sources are based on numerical calculations validated from extrapolations under conditions of questionable applicability. The thesis presents results after a detailed characterization of four different geometries of heat exchangers using both intrusive and optical techniques. A flow bench capable of generating a typical air current around the exchangers is used, while an oil conditioning system controls the point of operation on the hot side. To more realistically recreate operating conditions, a methodology is presented to automatically generate distortion screens that can reproduce a two-dimensional distribution of target velocities through additive manufacturing of variable porosity panels. This model, analyzed by means of CFD and validated experimentally, is used to reproduce the typical speed profile present around the exchanger in a real operating circumstance. After defining relevant metrics that allow analyzing the behaviour of the different geometries, it is concluded that aerodynamic and thermal problems are highly coupled in these devices, demonstrating the need for careful design to improve the exchanger's performance. The results show that an improvement of more than 12% in pressure drop and almost 20% in heat exchange can be obtained. In addition, the impact of using the distortion screen has been confirmed, with variations of the order of 10% in both variables. The results also show that it is possible to carry out a preliminary characterization in a reliable way with a 3D printed model, in terms of velocity fields, pressure losses and corrected eigenfrequencies. With the analysis carried out in this thesis, it can be concluded that it is essential to have an experimental installation that reproduces the real operating conditions of an engine to carry out relevant studies of heat exchangers. In addition, the use of appropriate metrics is necessary together with the development of a comprehensive, reliable and robust methodology. The results and methodology presented in this research can have a significant impact both at an academic and industrial level, since they open the door to developing more efficient thermal management systems in preliminary design stages that are more affordable, consume less time and have more flexibility to make changes. / The respondent wishes to acknowledge the financial support received through the Programa de Apoyo para la Investigación y Desarrollo (PAID) of Univer- sitat Politècnica de València under grant PAID-01-20 n◦ 21589. This project has received funding from the Clean Sky 2 Joint Undertak- ing under the European Unions Horizon 2020 research and innovation pro- gramme under grant agreement No 831977 Aerodynamic upgrade of Sur- face Air-Cooled Oil Coolers (SACOC) / Felgueroso Rodríguez, A. (2023). Aerothermal Characterisation of Surface Heat Exchangers for Turbofans [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/195852

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