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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.
61

Wake and Drag Manipulation of a Bluff Body Using Fluidic Forcing / Manipulation du sillage et de la traînée d'un corps épais par forçage fluidique

Camello Barros, Diogo 11 December 2015 (has links)
La réduction de la trainée aérodynamique des véhicules terrestres est un défi actuel dans l’industrie automobile. La région de basse pression du sillage à l’arrière des voitures est responsable d’une part importante de la résistance à l’avancement. Cette étude porte sur le développement de nouvelles stratégies de manipulation de l’écoulement autour de ces géométries dans le but de réduire la traînée. Afin d’atteindre ces objectifs, nous explorons expérimentalement les effets d’un forçage fluidique sur le sillage et la traînée d’un corps au culot droit. Des jets périodiques émis aux bords de fuite du modèle, tangentiellement à l’écoulement principal et avec des fréquences et amplitudes variables sont utilisés pour forcer le sillage. Selon les conditions du contrôle, trois phénomènes sont principalement observés. Premièrement, sur la plage des fréquences comprenant celle du lâcher tourbillonnaire, les jets pulsés sont convectés et modifient l’entrainement de fluide vers la région de recirculation ainsi que l’évolution des instabilités de la couche cisaillée. Cette dynamique complexe a comme conséquence l’augmentation de la trainée du corps. De plus, une résonance subharmonique apparait quand les jets pulsés sont émis avec des fréquences voisines de deux fois la fréquence du mode global. Une importante augmentation de la trainée est alors mesurée et corrélée à une forte amplification des mouvements du sillage. Une augmentation de la fréquence de pulsation se traduit par un effet de vectorisation des couches cisaillées. En outre, une diminution de l’intensité turbulente du sillage proche ainsi qu’une réduction de l’entrainement de fluide le long des couches cisaillées sont mesurés, correspondant à une réduction globale de l’énergie cinétique turbulente de l’écoulement. Le couplage de ces effets est responsable d’une augmentation de la pression au culot et de la réduction de la traînée. Il est important de noter que ces trois régimes d’actuation sont indépendants des modes de brisure de symétrie existant dans ces écoulements, qui sont analysés ici par des études paramétriques de sensibilité aux perturbations. Les aspects physiques de ces phénomènes sont discutés par des mesures de la traînée, de la pression pariétale et de la vitesse avec différentes conditions de l’écoulement et du contrôle. L’addition d’une surface courbée au voisinage du jet pulsé permet de profiter d’un effet Coanda et augmente les réductions de traînée jusqu'à 20%dans le régime instationnaires. De façon générale, l’effet Coanda amplifie non seulement la récupération de la traînée mais préserve aussi les effets de la pulsation haute fréquence sur l’écoulement turbulent. Ces résultats encouragent le développent des actionneurs fluidique pour l’utilisation en aérodynamique des véhicules et fournissent un complément pour notre compréhension sur la traînée des corps non profilés et sa manipulation. / Aerodynamic drag reduction of bluff bodies has become a major challenge for transport vehicles. The massive flowseparation occurring behind cars, buses or trucks is responsible for a large resistance force due to the low-pressure, rearwake flow. The present study aims to develop novel strategies to manipulate the flow past such geometries as well as toassociate its modifications to the corresponding drag changes. In order to achieve this goal, we experimentally investigatethe impact of fluidic actuation on the wake and drag of a square-back bluff body. Wake forcing is performed by theemission of pulsed jets along the blunt trailing-edges of the model, tangentially to the main flow with variable frequencyand velocity. Depending on the forcing conditions, mainly three flow regimes can be identified. First, for a broadbandrange of frequencies comprising the natural wake instabilities, the convection of the jet structures enhances wakeentrainment, shortens the recirculating flow length with an increase of the bluff body drag. Besides, a subharmonicresonance takes place on the flow at forcing frequencies in the vicinity of twice the wake vortex shedding, leading to ahighly unsteady near wake with significant decrease of the bluff body base pressure. It corresponds to an importantincrease of the model’s drag. Further increase of the actuation frequency induces a wake fluidic boat-tailing by shearlayerdeviation. It additionally lowers turbulent intensity and entrainment of high momentum fluid in the shear layer,revealing an overall reduction of the wake fluctuating kinetic energy. The association of both mechanisms is responsiblefor a raise of base pressure and a decrease of the model's drag. These actuation regimes are independent of the symmetrybreaking modes, wake reversals existing in such flows, which are further clarified here by parametric sensitivity analysisusing flow perturbations. The physical features of such regimes are discussed on the basis of drag, pressure and velocitymeasurements at several upstream conditions and control parameters. By adding curved surfaces at the jet outlets totake advantage of the so-called Coanda effect, the effect of periodic actuation can be further reinforced leading to dragreductions of about 20 % in unsteady regime. In general, the unsteady Coanda blowing not only intensifies the basepressure recovery but also preserves the effect of unsteady high frequency forcing on the turbulent field. The presentresults encourage the development of fluidic control in road vehicles' aerodynamics as well as provide a complement toour current understanding of bluff body drag and its manipulation.
62

Development of dielectric barrier discharge plasma actuators and their application at subsonic speeds

Hale, Craig January 2012 (has links)
Plasma actuators are electrical devices that generate a wall bounded jet without the use of any moving parts. For aerodynamic applications they can be used as flow control devices to delay separation and augment lift on a wing. The aim of this project is to initially develop a system capable of generating and sustaining a plasma that generates a wall bounded jet. The next step is to investigate the effect of varying the number and distribution of encapsulated electrodes in the dielectric layer. Finally the best case design is applied at the leading edge and flap shoulder of a NACA0015 aerofoil with a 20% flap. Utilising a transformer cascade, plasma has been generated for a variety of input voltages. In the quiescent environment of a Faraday cage the velocity flow field is recorded using particle image velocimetry (PIV). Through understanding of the mechanisms involved in producing the wall jet and the importance of the encapsulated electrode a novel actuator design was investigated. The actuator design distributes the encapsulated electrode throughout the dielectric layer. The experiments have shown that actuators with shallow initial encapsulated electrodes induce velocities greater than the baseline case at the same voltage. Actuators with a deep initial electrode are able to induce the highest velocities as they can operate at higher voltages without breakdown of the dielectric. The best actuator case is applied to the aerofoil for Reynolds numbers of 1:97x10⁵, 2:63x10⁵ and 3:29x10⁵. The lift and drag are recorded using pressure measurements around the aerofoil surface and across the aerofoil's wake. PIV is utilised to visualise the flow field. The trailing edge actuator produces a step increase in lift for pre-stall angles of attack and delays stall by 1° at Re = 1:97x10⁵. The leading edge actuator has limited impact on the flow for the no flap deflection case due to the actuator location. As the flap deflection increases the leading edge actuator is able to influence the flow. Repositioning of the leading edge actuator has the ability to reattach the flow around the fore portion of the aerofoil at a post stall angle of alpha = 18°.
63

Elektromagnetische Strömungskontrolle mit wandparallelen Lorentzkräften in schwach leitfähigen Fluiden

Weier, Tom January 2006 (has links)
Die vorliegende Arbeit widmet sich der, vorwiegend experimentellen, Untersuchung der Wirkung wandparalleler Lorentzkräfte in Strömungsrichtung auf Grenzschichtprofile und Körperumströmungen. Die Themen - Beeinflussung der Grenzschicht an ebenen Platten mit stationären Lorentzkräften - Kontrolle von Strömungsablösungen an Zylindern und symmetrischen Profilen mit stationären Lorentzkräften - Beeinflussung von Zylindernachläufen und abgelösten Tragflügelumströmungen mit zeitlich periodischen Lorentzkräften werden behandelt.
64

Active flow control at a 1.5-stage low-speed research compressor with varying rotor tip clearance

Künzelmann, M., Urban, R., Mailach, R., Vogeler, K. 03 June 2019 (has links)
The stable operating range of axial compressors is limited by the onset of rotating stall and surge. Mass injection upstream of the tip of an axial compressor rotor is a stability enhancement approach which can be effective in suppressing stall in tip-critical rotors, and thus increasing the operating range of compressors. In this article, investigations on active flow control related to the rotor tip gap sensitivity are discussed. The experiments were performed in a 1.5-stage low-speed research compressor. Measurements at part speed (80 per cent) and full speed (100 per cent) with varying injection rates are discussed. These tests were performed for two rotor tip clearances of 1.3 per cent and 4.3 per cent of rotor blade tip chord. Results on the compressor map, the flow field as well as transient measurements to identify the stall inception are discussed. Supplementary, the numerical results are compared to the experiments based on the configuration with the greatest benefit in operating range enhancement.
65

Active Control of Flow over an Oscillating NACA 0012 Airfoil

Castañeda Vergara, David Armando 27 August 2020 (has links)
No description available.
66

Understanding Flow Physics and Control in an Aggressively Offset High-Speed Inlet/Diffuser Model

O'Neill, Collin James 06 October 2020 (has links)
No description available.
67

Active Control of Separated Flow over a Circular-Arc Airfoil

Miranda, Sergio 14 August 2000 (has links)
An experimental study of active control of fully separated flow over a symmetrical circular-arc airfoil at high angles of attack was performed. The experiments were carried out in a low-speed, open circuit wind tunnel. Angles of attack from 10 to 40 degrees were tested. Low-power input, unsteady excitation was applied to the leading or trailing edge shear layers. The actuation was provided by the periodic oscillation of a 4-percent-chord flap placed on the suction side of the airfoil and facing the sharp edge. Vortex-shedding frequencies were measured and harmonic combinations selected as the applied actuator frequencies. Pressure measurements over the airfoil show that the control increased the normal force coefficient by up to 70%. This supports the idea of vortex capture in the time-averaged sense, enhancing the lift on the airfoil by managing the shear layer roll up. The results indicate the viability of the control of large-scale flow fields by exploiting the natural amplification of disturbances triggered by small-scale actuators. The application of flow control on sharp-edged aircraft wings could lead to improved maneuverability, innovative flight control and weight reduction. These can be achieved by inexpensive, low-power, rugged actuators. / Master of Science
68

Measurements of Flow in Boundary Layer Ingesting Serpentine Inlets

Ferrar, Anthony Maurice 20 January 2012 (has links)
Highly integrated airframe-propulsion systems featuring ingestion of the airframe boundary layer offer reduced noise, emissions, and fuel consumption. Embedded engine systems are envisioned which require boundary layer ingesting (BLI) serpentine inlets to provide the needed air ow to the engine. These inlets produce distorted flow profiles that can cause aeromechanical, stability, and performance changes in embedded engines. Proper design of embedded engine systems requires understanding of the underlying fluid dynamics that occur within serpentine inlets. A serpentine inlet was tested in a specially designed wind tunnel that simulated boundary layer ingestion in a full-scale realistic environment. The measured total pressure proles at the inlet and exit planes of the duct, and the static pressure distributions along the walls provided useful data related to the flow in BLI serpentine inlet systems. A bleed ow control system was tested that utilized no more than 2% of the total inlet ow. Two bleed slots were employed, one near the first bend of the S-duct and one near second. The bleed system successfully reduced inlet distortions by as much as 30%, implying improvements in stall margin and engine performance. Analysis of the wake shape entering the S-duct showed that the airframe and inlet duct are both important components of a wake-ingesting inlet/diffusion system. Shape effects and static pressure distributions determined flow transport within the serpentine inlet. Flow separation within the S-duct increased distortion at the engine inlet plane. Discussion of airframe/inlet/engine compatibility demonstrates that embedded engine systems require multi-disciplinary collaborative design efforts. An included fundamental analysis provides performance estimates and design guidelines. The ideal airframe performance improvement associated with wake-ingestion is estimated. / Master of Science
69

Flow Control of Tandem Cylinders Using Plasma Actuators

Larsen, Jonah 01 January 2018 (has links)
The flow over a set of tandem cylinders at a moderate Reynolds numbers (Re), and with different separation lengths has been studied. Two dimensional (2D) and three-dimensional (3D) plasma actuators were used to control the flow over the leading cylinder to change the vortex shedding, and subsequently the flow on the second cylinder. The 3D plasma actuator was segmented along the length of the cylinder with a spacing of λ = 4 while the 2D actuator simply ran straight down the span of the cylinder. Particle image velocimetry (PIV) measurements were used to investigate the flow along the central plane in the wake of the cylinders. The image pairs were processed into velocity grids which were then averaged. Plots of the shear, vorticity, and turbulent kinetic energy were created. These plots are used to understand how the character of vortex shedding from the upstream cylinder changes the same from the downstream one.
70

Flow Control over a Tandem Cylinder using Plasma Actuation

Latrobe, Benjamin 01 January 2021 (has links)
Tandem cylinder flow control in the form of dielectric barrier discharge, DBD, plasma actuation on the upstream cylinder is used to control the wake and flow around the downstream cylinder. Twin spanwise-oriented plasma actuators are mounted at ± 80 degrees from the forward stagnation point of the upstream cylinder. The actuators are powered with two different AC voltage levels, low-power forcing and high-power forcing. Flow control experiments are performed at Reynolds number 4,700, and cylinder spacing range 3 > L/D > 5. Results include pressure measurements on the downstream cylinder and wake surveys using Particle Image Velocimetry, PIV. High-power forcing reduces the height between vorticity peaks behind upstream cylinder and, in the case of L=3D, restricts upstream wake from impinging on downstream cylinder.

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