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601	Drag reduction using plasma actuators Futrzynski, Romain January 2015 (has links) This thesis is motivated by the application of active flow control on the cabin of trucks, thereby providing a new means of drag reduction. Particularly, the work presented strives to identify how plasma actuators can be used to reduce the drag caused by the detachment of the flow around the A-pillars. This is achieved by conducting numerical simulations, and is part of a larger project that also includes experimental. The effect of plasma actuators is modeled through a body force, which adds very little computational cost and is suitable for implementation in most CFD solvers. The spatial distribution of this force is described by coefficients which have been optimized against experimental data, and the model was shown to be able to accurately reproduce the wall jet created by a single plasma actuator in a no-flow condition. A half cylinder geometry - a simplified geometry for the A-pillar of a truck - was used in a preliminary Large Eddy Simulation (LES) study that showed that the actuator alone, operated continuously, was not sufficient to achieve a significant reduction of the drag. Nevertheless, a significant drag reduction was obtained by simply increasing the strength of the body force to a higher value, showing that this type of actuation remains relevant for the reduction of drag. In the course of finding ways to improve the efficiency of the actuator, dynamic mode decomposition was investigated as a post-processing tool to extract structures in the flow. Such structures are identified by their spatial location and frequency, and might help to understand how the actuator should be used to maximize drag reduction. Thus a parallel code for dynamic mode decomposition was developed in order to facilitate the treatment of the large amounts of data obtained by LES. This code and LES itself were thereafter evaluated in the case of a pulsating channel flow. By using the dynamic mode decomposition it was possible to accurately extract oscillating profiles at the forcing frequency, although harmonics with lower amplitude compared to the turbulence intensity could not be obtained. / Denna avhandling behandlar tillämpningen av aktiv strömningskontroll för lastbilshytter, vilket är en ny metod för minskning av luftmotståndet. Mer i detalj är det övergripande målet att visa på hur plasmaaktuatorer kan användas för att minska luftmotståndet orsakat av avlösningen runt A-stolparna. In denna avhandling studeras detta genom numeriska simuleringar. Arbetet är en del av ett projekt där även experimentella försök görs. Effekten av plasmaaktuatorer modelleras genom en masskraft, vilket inte ger nämnvärd ökning av beräkningstiden och är lämplig för implementering i de flesta CFD-lösare. Den rumsliga fördelningen av kraften bestäms av koefficienter vilka i detta arbete beräknades utifrån experimentella data. Modellen har visat sig kunna återskapa en stråle nära väggen med god noggrannhet av en enskild plasmaaktuator för en halvcylinder utan strömning. Samma geometri - en halvcylinder som här används som förenklad geometri av A-stolpen på en lastbil - användes i en preliminär LES studie som visade att enbart aktuatorn vid kontinuerlig drift inte var tillräckligt för att uppnå en signifikant minskning av luftmotståndet. En signifikant minskning av luftmotståndet erhölls genom att helt enkelt öka styrkan på kraften, vilket visats att denna typ av strömningskontroll är relevant för minskning av luftmotståndet. I syfte att förbättra effektiviteten hos aktuatorn, studerades dynamic mode decomposition, som ett verktyg för efterbehandling för att få fram flödesstrukturer. Dessa strukturer identifieras genom deras rumsupplösning och frekvens och kan hjälpa till att förstå hur aktuatorerna bör användas för att minska luftmotståndet. En parallelliserad kod för dynamic mode decomposition utvecklades för att underlätta efterbehandlingen av de stora datamängder som fås från LES-beräkningarna. Slutligen, utvärderades denna kod och LES-beräkningar på ett strömningsfall med pulserande kanalflöde. Metoden, dynamic mode decomposition, visade sig kunna extrahera de oscillerande flödesprofilerna med hög noggrannhet för den påtvingade frekvensen. Övertoner med lägre amplitud jämfört med turbulensintensiteten kunde dock inte erhållas. / <p>QC 20150312</p> flow control drag reduction plasma actuator DMD LES optimization pulsating flow strömningskontroll motståndsminskning plasma ställdon DMD LES optimering pulserande flöde Vehicle Engineering Farkostteknik
602	U-RANS Simulation of fluid forces exerted upon an oscillating tube array Divaret, Lise January 2011 (has links) The aim of this master thesis is to characterize the fluid forces applied to a fuel assembly inthe core of a nuclear power plant in case of seism. The forces are studied with a simplifiedtwo-dimensional model constituted of an array of 3 by 3 infinite cylinders oscillating in aclosed box. The axial flow of water, which convects the heat in the core of a nuclear powerplant, is also taken into account. The velocity of the axial flow reaches 4m/s in the middle ofthe assembly and modifies the forces features when the cylinders move laterally.The seism is modeled as a lateral displacement with high amplitude (several cylinderdiameters) and low frequencies (below 20 Hz). In order to study the effects of the amplitudeand of the frequency of the displacement, the displacement taken is a sine function withboth controlled amplitude and frequency. Four degrees of freedom of the system will bestudied: the amplitude of the displacement, its frequency, the axial velocity amplitude andthe confinement (due to the closed box).The fluid forces exerted on the cylinders can be seen as a combination of three terms: anadded mass, related to the acceleration of cylinders, a drift force, related to the damping ofthe fluid and a force due to the interaction of the cylinder with residual vortices. The firsttwo components will be characterized through the Morison expansion, and their evolutionwith the variation of the degree of freedom of the system will be quantified. The effect ofthe interaction with the residual vortices will be observed in the plots of the forces vs. timebut also in the velocity and vorticity map of the fluid.The fluid forces are calculated with the CFD code Code_Saturne, which uses a second orderaccurate finite volume method. Unsteady Reynolds Averaged Navier Stokes simulations arerealized with a k-epsilon turbulence model. The Arbitrary Lagrange Euler model is used todescribe the structure displacement. The domain is meshed with hexahedra with thesoftware gmsh [1] and the flow is visualized with Paraview [2]. The modeling techniquesused for the simulations are described in the first part of this master thesis. Fluid-structure interaction CFD Forces added mass drag coefficient Morison expansion Arbitrary Lagrange Euler model. Engineering and Technology Teknik och teknologier
603	Cold Gas Dynamic Spray Impact: Metallic Bonding Pre-Requisites and Experimental Particle In-Flight Temperature Measurements Nastic, Aleksandra 05 May 2021 (has links) The impact phenomena of high velocity micron-size particles, although commonly considered and described as detrimental in numerous engineering applications, can be used in a beneficial way if properly understood and controlled. The Cold Gas Dynamic Spray (CGDS) process, known as a surface modification, repair and additive manufacturing process, relies on such high velocity impacts. In the process, solid particles are accelerated by a supersonic gas flow to velocities up to 1200 m/s and are simultaneously heated to temperatures lower than their melting point. When propelled under proper velocity and temperature, the particles can bond onto a target surface. This bonding is caused by the resulting interfacial deformation processes occurring at the contact interface. Hence, the process relies heavily on the gas/particle and particle/substrate interactions. Although numerous experimental and/or numerical studies have been performed to describe the phenomena occurring during particle flight and impact in the CGDS process, numerous phenomena remain poorly understood. First, the effect of substrate surface topographical condition on the particle deformation and ability to successfully adhere, i.e. atomically and/or mechanically, has not been thoroughly investigated such that its influence is not well understood. Another aspect of the process that is generating the largest gap between experimental and numerical studies in the field is the lack of particle in-flight temperature measurements. Obtaining such data has proven to be technically difficult. The challenges stem from the short particle flight time, low particle temperature and small particle size preventing the use of established thermal spray pyrometry equipment. Relatedly, lack of such measurements precludes a proper experimental study of the impact related phenomena at the particle/substrate interface. As a result, the effect of particle size dependent temperature on overall coating properties and atomic bonding relies currently on estimates. Finally, the effect of particle impact characteristics on interfacial phenomena, i.e. grain size and geometry, velocity/temperature, and oxide scale thickness, on adhesion and deformation upon single particle collision has also been scarcely studied for soft particle depositions on hard substrate. Hence, the current research work aims at studying fundamental aspects of particle/gas heat transfer and particle/substrate impact features in goals to improve the understanding of the CGDS process. Different surface preparation methods will be used to create various surface roughness and topographical features, to provide a clear understanding of the target surface state influence on coating formation and adhesion. Additionally, new equipment relying on novel technology, i.e. high-speed IR camera, will be utilized to obtain particle in-flight temperature readings with sequence recordings. Subsequently, the experimental particle in-flight temperature readings will be used to develop a computational fluid dynamics model in goals to validate currently used Nusselt number correlations and heat transfer equations. The particle size-dependent temperature effect on the particle’s elastic and plastic response to its impact with a targeted surface and its ability to successfully bond and form a coating will be studied experimentally. A thorough CFD numerical work, based on experimental findings, will be included to provide full impact characteristics (velocity, temperature, size and trajectory) of successfully deposited particles. Finally, the numerical results will be utilized in the ensuing study to correlate single particle deformation, adhesion and interfacial features to impact characteristics. A finite element model will be included to investigate the effect of particle size dependent temperature on single particle interfacial pressure, temperature and bonding ability. Cold Spray Gas dynamics Finite element modeling High speed impacts Computational fluid dynamics High speed infrared camera Phonon drag High strain rate
604	CFD Simulation of Vortex-Induced Vibration of Ice Accreted Stay Cable Using ANSYS-Fluent Sharma, Dwaipayan January 2020 (has links) No description available. Civil Engineering Stay cable Ice accretion Drag coefficient Lift coefficient Surface roughness CFD K-omega SST turbulent model Vortex-Induced Vibration Wind
605	Flow-induced deformations and stress reduction by flexibility / Déformations induites par l'écoulement et réduction d'efforts par la flexibilité Leclercq, Tristan 10 January 2018 (has links) La déflection statique d'une structure flexible exposée à un écoulement transverse permet classiquement de réduire la traînée à laquelle elle est soumise. Dans le domaine de la biomécanique, la déformation induite par l'écoulement d'éléments végétaux flexibles conduisant à une réduction du chargement est désignée par le terme `reconfiguration' pour souligner le caractère avantageux de ce processus adaptatif. Dans cette thèse, nous examinons les mécanismes qui sous-tendent le processus de reconfiguration, dans des systèmes fluide-structure présentant une variabilité spatiale, ou de la dynamique provenant au choix de l'instationnarité de l'écoulement de base, d'un couplage fluide-structure conduisant à une instabilité, ou de vibrations induites par vortex. Nous montrons que l'aptitude des structures flexibles à réduire l'intensité du chargement imposé par l'écoulement est preservée en présence de non-uniformités ou de dynamique, à condition que le design de la structure soit tel que la traînée résistive domine les forces inertiels. Nous montrons de plus que la capacité à se déformer présente l'avantage supplémentaire de permettre la réduction des vibrations induites par vortex. Notre travail indique également que des structures légères et élancées sont les mieux adaptées pour supporter les chargements induits par l'écoulement en se reconfigurant, et que l'efficacité de la réduction du chargement par reconfiguration élastique dépend faiblement de la distribution spatiale des propriétés du système. Finalement, la réduction des chargements résulte toujours, indépendamment du régime de reconfiguration, de la concentration de la déformation sur une longueur caractéristique inférieure à la longueur réelle de la structure. / The static deflection of a flexible structure exposed to a transverse flow is classically known to reduce the drag it has to withstand. In the field of biomechanics, the flow-induced deformation of flexible plant elements leading to a reduction of the loads is referred to as `reconfiguration', in order to highlight the alleged benefits of such adaptive process. In this thesis, we investigate the mechanisms underpinning the reconfiguration in flow-structure systems featuring some spatial variability, or some dynamics arising either from the unsteadiness of the free-stream, from a flow-structure coupling leading to an instability, or from vortex-induced vibrations. We show that the ability of flexible structures to reduce the magnitude of the flow-induced loads is preserved in the presence of non-uniformities or dynamics, provided that the design of the structure is such that resistive drag dominates over inertial forces. We also show that the ability to deform has the added benefit of reducing the magnitude of the vortex-induced vibrations. Our work further indicates that light, slender structures are better suited to accommodate the flow-induced loads by reconfiguring, and that the efficiency of the process of load reduction by elastic reconfiguration is weakly sensitive to the spatial distribution of the system properties. Finally, regardless of the regime of reconfiguration, the reduction of the load always results from the concentration of the deformation on a characteristic bending length smaller than the actual length of the structure. Interactions fluide-Structure Reconfiguration Réduction de traînée Efforts internes Instabilité de flottement Vibrations induites par vortex Fluid-Structure interactions Reconfiguration Drag reduction Internal stress Flutter instability Vortex-Induced vibrations
606	Drag Against AIDS: AIDS and the Indianapolis Bag Ladies, 1981- 1995 Chinn, Kara Elizabeth 04 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Acquired Immunodeficiency Syndrome (AIDS), as it would later be known, began to appear in the United States in 1981. Medical professionals from around the country began to track a mysterious set of illnesses that were affecting previously healthy people, most of who were homosexual men. As the disease spread, it was clear that homosexual men were being most affected. There was no cure to this illness which was quickly killing those infected. In October 1981, the Indianapolis Bag Ladies, a group of gay men, began as a simple Halloween Bus Tour around the city. Coby Palmer, Gary Johnson, and Ed Walsh teamed up by renting three charter busses for their new “Bag Ladies Bus.” Their campy drag involved multiple costume changes that required them to tote bags around, thus earning their name. By 1982, the Bag Ladies knew they needed to do more than have a party. The second bus tour was all about collecting money and creating a “war chest” for the gay community of Indianapolis in case AIDS made its way to the city. In doing this, they became one of the first grassroots HIV/AIDS support groups in the United States. After over 38 years of continued efforts, the Indianapolis Bag Ladies have impacted the Indianapolis LGBTQ communities through a variety of programs that expanded beyond the original bus tour. This thesis explores and analyzes these efforts which include Nurse Safe Sexx, a safe sex campaign; the Damien Center, a HIV/AIDS health clinic; and the Buddy House and Buddy Support Program, two programs connecting people with AIDS to support programs. The final chapter of this thesis expands on the discussion through a public program hosted by the Indiana Historical Society and demonstrates how programs surrounding these topics can be successful for museums and participants. Bag Ladies Indianapolis LGBTQ LGBT Gay AIDS Healthcare Sex Education Drag Low Pone Sisters of Perpetual Indulgence Indiana Gay Men's Health Crisis
607	Plate Impact Experiments for Studying the Dynamic Response of Commercial-Purity Aluminum at Temperatures Approaching Melt Zuanetti, Bryan 23 May 2019 (has links) No description available. Mechanical Engineering Materials Science Plate Impact Shock Compression Flow Stress Pressure-Shear Aluminum Phonon drag Transverse motion diagnostics PDV dynamic strength Laser shock
608	"...en mardröm för språkvårdare" : Recensenters attitydertill multietniskt ungdomsspråk i skönlitteratur Hanna, Weman January 2023 (has links) I denna uppsats undersöks vilka språkattityder som kan synliggöras i recensioner av de tre böckerna Till vår ära (2001), Ett öga rött (2003) och Yani (2022), som samtliga är skrivna helt eller delvis på multietniskt ungdomsspråk. Syftet är att analysera hur attityder till multietniskt ungdomsspråk har förändrats sedan början av 2000-talet fram till 2022. Arbetet vilar på centrala begrepp från sociolingvistiken och en kombination av verktyg för att analysera interpersonella drag i en text. Dessa analysverktyg är hämtade från den systemisk-funktionella grammatiken samt teori för metakommunikation och utgör tillsammans uppsatsens metod. De frågeställningar jag avser besvara är vilka attityder till multietniskt ungdomsspråk som kan blottläggas i bokrecensionerna, och hur dessa attityder har förändrats under tidsperioden 2001–2022. Resultaten visar att det har skett en förändring i attityder under den studerade tidsperioden. Det går från en uppfattning om att multietniskt ungdomsspråk visserligen är nyskapande och normbrytande men ändå inkorrekt, ofullständigt och svårläst, till övervägande positiva attityder där språket menas fylla en funktion i boken, och fokus förskjuts mer till läsaren än till språket i sig. Detta kan tänkas höra ihop med en större demografisk förändring i samhället där antalet utlandsfödda ökar, och det multietniska ungdomsspråket inte längre är lika ifrågasatt. Samtidigt framgår det att recensenterna sitter på en position där de kan förhandla om språkets plats i samhället utifrån sin roll som kulturella grindvaktare. Undersökningen visar även att en kombination av metoder från systemisk-funktionell grammatik och metakommunikation fungerar väl för att synliggöra attityder i ett material. multietniskt ungdomsspråk språkattityd SFG metakommunikation interpersonella drag annorlundahet Leiva Wenger Hassen Khemiri Khalil bokrecensioner kulturella grindvaktare Languages and Literature Språk och litteratur Specific Languages Studier av enskilda språk
609	Cable Shape Optimization - Drag Reduction of Cables Used in Marine Applications Garpenquist, Simon January 2023 (has links) It is important to understand the aerodynamic properties of tensioned cables (e.g. used in suspension bridges and yacht riggings), both for drag reduction and vibrational suppression purposes. In this study, the cross-sectional shape and surface structure of solid cables were investigated in order to improve the performance of sailing racing yachts. The apparent wind angle range 15-60° was identified as the most important for drag reduction. Thereafter, the aerodynamic properties of different shapes and surfaces were investigated in the Reynolds number range 5 x 10^3 ≤ Re ≤ 4 x 10^4, by performing computational fluid dynamics simulations and wind tunnel tests (the aerodynamic forces were measured using load cells). No significant effect of changing the surface roughness could be found for the investigated Reynolds number range. The results were compared to literature values for validation. Elliptical shapes with a fineness ratio between 1:1-3:1, together with three complex shapes, were tested. It could be shown that the largest performance gain was obtained for cables with more sail-like aerodynamic properties (for apparent wind angles below 90° a large lift/drag ratio is sought). This study was performed in collaboration with Carbo-Link AG, as an outlook, the manufacturability of carbon fiber reinforced polymer cables in the most aerodynamically efficient shape was explored. Wind Tunnel Experiment Computational Fluid Dynamics Aerodynamic Forces Drag Reduction Shape Optimization Flow around Cylinders Yacht Racing Engineering and Technology Teknik och teknologier
610	Studies in Heat Transfer Enhancement in Drag Reducing Solutions Chongson, Ross Bradley 08 December 2022 (has links) No description available. Chemical Engineering Engineering Energy Fluid Dynamics Chemical Engineering Heat Transport Drag Reduction Heat Transfer Enhancement Energy Heat Exchangers Static Mixers Surfactants Fluid Mechanics

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