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21	Simulação numérica da estabilidade de escoamentos de um fluido Giesekus / Numerical Simulation of the Flow Stability of a Giesekus Fluid Arianne Alves da Silva 16 July 2018 (has links) Diversas aplicações industriais utilizam escoamentos de fluidos viscoelásticos, e em muitos casos é necessário saber se os escoamentos propagam-se no estado laminar ou no turbulento. Embora a hidrodinâmica de fluidos viscoelásticos seja fortemente afetada pelo balanço entre forças inerciais e elásticas no escoamento, o efeito da elasticidade sobre a estabilidade de escoamentos inerciais não foi completamente estabelecido. Neste trabalho, estuda-se o que ocorre durante a transição laminar-turbulenta, investigando a convecção de ondas de Tollmien-Schlichting para o escoamento incompressível, para um fluido viscoelástico, entre placas paralelas, utilizando a equação constitutiva Giesekus. Para isto, adotou-se a simulação numérica direta para verificar a estabilidade dos escoamentos à perturbações não estacionárias deste fluido. Experimentos computacionais para verificação do código foram realizados. Com os resultados numéricos obtidos, foi possível verificar e analizar a estabilidade de escoamentos utilizando-se o modelo não newtoniano Giesekus. / Several industrial applications use viscoelastic fluid flows, and it is necessary to know if the flows propagate in the laminar or turbulent state. Although the hydrodynamics of viscoelastic fluids is strongly affected by the balance between inertial and elastic forces in the flow, the effect of elasticity on the stability of inertial flows has not been completely established. In this work we study what happens during the laminar-turbulent transition, investigating the convection of Tollmien-Schlichting waves for the incompressible flow, for a viscoelastic fluid, between parallel plates, using the constitutive equation Giesekus. For this, the direct numerical simulation was used to verify the stability of the flows to the non-stationary perturbations of this fluid. Computational experiments to verify the code were performed. With the numerical results obtained, it was possible to verify and analyze the stability of flows modelled by Giesekus non-newtonian model. Estabilidade de escoamentos Fluidos viscoelásticos Modelo Giesekus Simulação numérica Transição laminar-turbulenta Flow stability Giesekus model Laminar-turbulent transition Numerical Simulation Viscoelastic fluids
22	Étude expérimentale et numérique du contrôle de transition de couche limite par actionneurs à plasma froid surfacique / Experimental and numerical study of boundary layer transition control by means of cold surface plasma actuators Szulga, Natacha 30 November 2016 (has links) La transition laminaire-turbulent au sein de la couche limite qui se développesur les parois des aéronefs augmente fortement la traînée de frottement. Ainsi, afin derépondre à une problématique à la fois environnementale et économique, une piste envisagéepour réduire la consommation en carburant des aéronefs du futur est de diminuerla trainée en reculant cette transition le plus en aval possible. Dans ce cadre, l’objectifde cette thèse est de caractériser expérimentalement et numériquement l’effet d’actionneursà plasma de type Décharge à Barrière Diélectrique sur la transition. Alimentés parune haute tension alternative, ces actionneurs actifs produisent une force volumique pulséequi permet, sous certaines conditions, de modifier les profils de vitesse moyenne dansla couche limite et de reculer la transition. Sous d’autres conditions, le caractère instationnairede cette force volumique peut entrainer une amplification des instabilités modalesnaturellement présentes dans la couche limite (ondes de Tollmien-Schlichting) et ainsiconduire à une transition prématurée. Une première expérience a permis de mettre enévidence cette compétition entre l’effet moyen stabilisant et l’effet instationnaire déstabilisanten mesurant respectivement un recul et une avancée de la transition. Parallèlementà ces activités expérimentales, une étude numérique, basée sur des analyses destabilité linéaire, a montré que l’effet moyen de la force volumique permettait d’atténuerune large gamme de fréquences d’ondes TS dans la couche limite et d’expliquer le reculde transition observé expérimentalement. En se concentrant sur l’effet moyen, une secondeexpérience a permis d’étudier l’influence de la position de l’actionneur ainsi quel’effet cumulatif de plusieurs actionneurs sur le recul de transition. / The boundary layer transition from a laminar to a turbulent state increases thewall friction drag. Particularly on future aircrafts, one way of reducing fuel consumption,and answering both an environmental and economic issue, consists in delaying the transitionfarther downstream. In this context, the aim of this work is to characterize the impactof Dielectric Barrier discharge (DBD) plasma actuators on the boundary layer transition.When powered with an alternative high voltage, these active actuators produce apulsed body force which is tangential to the wall and, under some conditions, enablesto modify the boundary layer mean velocity profiles to delay the transition. Under otherconditions, the unsteady body force amplifies modal instabilities (Tollmien-Schlichtingwaves) may destabilize the boundary layers, leading to a promoted transition. A first experimentenabled to highlight this competition between the stabilizing mean effect andthe destabilizing unsteady effect by measuring respectively a transition delay and a transitionpromotion. A numerical study based on local stability analyses wass conducted inparallel and showed that a wide frequency range of TS waves is damped by the mean bodyforce, which explains the transition delay. A second experiment, focusing on the mean effect,enabled to show the influence of the actuator position and the cumulative effect ofseveral actuators on the transition delay. Transition laminaire/turbulent Couche limite Actionneurs à plasma Contrôle d’écoulement Ondes de Tollmien-Schlichting Laminar/turbulent transition Boundary layer Plasma actuators Flow control Tollmien-Schlichting waves 532
23	Optimal Control of Boundary Layer Transition Högberg, Markus January 2001 (has links) No description available. laminar-turbulent transition transition control turbulence control flow control boundary layer flow channel flow optimal control adjoint equations Riccati equations Orr--Sommerfeld--Squire equations secondary instability transient gro
24	Flow control of boundary lagers and wakes Fransson, Jens H. M. January 2003 (has links) Both experimental and theoretical studies have beenconsidered on flat plate boundary layers as well as on wakesbehind porous cylinders. The main thread in this work iscontrol, which is applied passively and actively on boundarylayers in order to inhibit or postpone transition toturbulence; and actively through the cylinder surface in orderto effect the wakecharacteristics. An experimental set-up for the generation of the asymptoticsuction boundary layer (ASBL) has been constructed. This studyis the first, ever, that report a boundary layer flow ofconstant boundary layer thickness over a distance of 2 metres.Experimental measurements in the evolution region, from theBlasius boundary layer (BBL) to the ASBL, as well as in theASBL are in excellent agreement with boundary layer analysis.The stability of the ASBL has experimentally been tested, bothto Tollmien-Schlichting waves as well as to free streamturbulence (FST), for relatively low Reynolds numbers (Re). For the former disturbances good agreement is foundfor the streamwise amplitude profiles and the phase velocitywhen compared with linear spatial stability theory. However,the energy decay factor predicted by theory is slightlyoverestimated compared to the experimental findings. The latterdisturbances are known to engender streamwise elongated regionsof high and low speeds of fluid, denoted streaks, in a BBL.This type of spanwise structures have been shown to appear inthe ASBL as well, with the same spanwise wavelength as in theBBL, despite the fact that the boundary layer thickness issubstantially reduced in the ASBL case. The spanwise wavenumberof the optimal perturbation in the ASBL has been calculated andis β = 0.53, when normalized with the displacementthickness. The spanwise scale of the streaks decreases withincreasing turbulence intensity (Tu) and approaches the scale given by optimalperturbation theory. This has been shown for the BBL case aswell. The initial energy growth of FST induced disturbances hasexperimentally been found to grow linearly as Tu2Rexin the BBL, the transitional Reynolds numberto vary as Tu-2, and the intermittency function to have a relativelywell-defined distribution, valid for all Tu. The wake behind a porous cylinder subject to continuoussuction or blowing has been studied, where amongst other thingsthe Strouhal number (St) has been shown to increase strongly with suction,namely, up to 50% for a suction rate of 2.5% of the free streamvelocity. In contrast, blowing shows a decrease ofStof around 25% for a blowing rate of 5% of the freestream velocity in the considered Reynolds number range. Keywords:Laminar-turbulent transition, asymptoticsuction boundary layer, free stream turbulence,Tollmien-Schlichting wave, stability, flow control, cylinderwake. / QC 20100607 Laminar-turbulent transition asymptotic suction boundary layer free stream turbulence Tollmien-Schlichting wave stability flow control cylinder wake Engineering mechanics Teknisk mekanik
25	Optimal Control of Boundary Layer Transition Högberg, Markus January 2001 (has links) No description available. laminar-turbulent transition transition control turbulence control flow control boundary layer flow channel flow optimal control adjoint equations Riccati equations Orr--Sommerfeld--Squire equations secondary instability transient gro
26	Análise de estabilidade de escoamentos do fluido viscoelástico Giesekus / Stability analysis of Giesekus viscoelastic fluid flows Furlan, Laison Junio da Silva [UNESP] 02 August 2018 (has links) Submitted by Laison Junio da Silva Furlan (laisonfurlan@gmail.com) on 2018-09-11T21:45:47Z No. of bitstreams: 1 dissertacao_final.pdf: 2611301 bytes, checksum: b4c51f4e16b1f3e612c4d3a044c777c5 (MD5) / Approved for entry into archive by Claudia Adriana Spindola null (claudia@fct.unesp.br) on 2018-09-12T11:25:26Z (GMT) No. of bitstreams: 1 furlan_ljs_me_prud.pdf: 2445202 bytes, checksum: 1f1f2699158710f217b33ed602d0f51e (MD5) / Approved for entry into archive by Claudia Adriana Spindola null (claudia@fct.unesp.br) on 2018-09-12T11:36:28Z (GMT) No. of bitstreams: 1 furlan_ljs_me_prud.pdf: 2445202 bytes, checksum: 1f1f2699158710f217b33ed602d0f51e (MD5) / Made available in DSpace on 2018-09-12T11:36:28Z (GMT). No. of bitstreams: 1 furlan_ljs_me_prud.pdf: 2445202 bytes, checksum: 1f1f2699158710f217b33ed602d0f51e (MD5) Previous issue date: 2018-08-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O presente trabalho investiga a transição laminar-turbulenta devido a ondas de Tollmien-Schlichting para o escoamento de Poiseuille incompressível, bidimensional, de um fluido viscoelástico, utilizando a equação constitutiva Giesekus. A Teoria de Estabilidade Linear e a Simulação Numérica Direta são utilizadas para verificar a estabilidade de escoamentos de fluidos viscoelásticos a perturbações não estacionárias. Na análise LST a equação de Orr-Sommerfeld é modificada para um fluido viscoelástico e resolvida pelo método da estimativa (Shooting). Enquanto que, na formulação DNS, as equações de Navier-Stokes, juntamente com a equação constitutiva Giesekus, são resolvidas utilizando métodos de diferenças finitas compactas de alta ordem. Com o objetivo de avaliar as curvas neutras de estabilidade e as taxas de amplificação, diferentes simulações numéricas são realizadas variando-se os parâmetros adimensionais no modelo Giesekus e comparando com o fluido Newtoniano. As técnicas LST e DNS mostraram-se ferramentas eficientes na análise espacial da estabilidade de escoamentos viscoelásticos do tipo Giesekus, permitindo uma melhor compreensão da influência dos parâmetros adimensionais desses escoamentos e contribuindo com resultados originais na verificação da estabilidade de escoamentos viscoelásticos utilizando o fluido Giesekus. / The present work investigates the laminar-turbulent transition due to Tollmien-Schlichting waves for the incompressible two-dimensional Poiseuille flow of a viscoelastic fluid, using the Giesekus constitutive equation. Linear Stability Theory and Direct Numerical Simulation are used to verify the stability of viscoelastic fluid flows to unsteady disturbances. In the LST analysis, the Orr-Sommerfeld equation is modified to a viscoelastic fluid and solved by Shooting method. Whereas, in the DNS formulation, the Navier-Stokes equations with the Giesekus constitutive equation are solved using high-order compact finite difference methods. In order to evaluate the neutral stability curves and the amplification rates, different numerical simulations are performed by varying the dimensionless parameters in the Giesekus model and their results are compared with the Newtonian fluid. The LST and DNS techniques proved to be efficient tools to the spatial stability analysis of viscoelastic fluid flows of the Giesekus type, allowing a better comprehension of the dimensionless parameters influence of those flows, contributing with originals results to verification of the viscoelastics fluid flows stability using Giesekus fluid. / FAPESP: 2017/11068-6 Fluido Giesekus Transição laminar-turbulenta Simulação numérica direta Teoria de estabilidade linear Laminar-turbulent transition Giesekus fluid Direct numerical simulation Linear stability theory
27	Instabilités dans les moteurs à propergol solide : influence de la géométrie étoilée et étude numérique de la transition laminaire-turbulent / Instabilities inside solid rocket motors : influence of the star-shaped geometry and numerical study of the laminar-turbulent transition Bouyges, Maxime 28 November 2017 (has links) Les moteurs à propergol solide de certains lanceurs spatiaux peuvent présenter des oscillations de poussée provoquées par des oscillations de la pression interne du moteur. Il est désormais connu qu'une instabilité hydrodynamique propre à l'écoulement et mise en évidence par une approche de stabilité linéaire, appelée Vortex Shedding Parietal, est le phénomène à l'origine de ces oscillations. Cependant plusieurs questions subsistent quant à l'apparition de ces oscillations. En particulier, on constate que ces oscillations ne sont observées que dans la seconde moitié du tir. On suppose que la transition laminaire-turbulent de l'écoulement joue un rôle dans ce phénomène. Par ailleurs, l'utilisation possible de la géométrie étoilée pour les blocs de propergol de géométrie étoilée oblige à reprendre l'étude de stabilité linéaire pour l'étude de ces oscillations. Cette thèse porte ainsi à la fois sur l'étude de la stabilité linéaire de l'écoulement induit par une géométrie étoilée et sur la transition laminaire-turbulent d'une configuration circulaire. Une solution analytique de l'écoulement au sein d'un conduit à paroi débitante de géométrie étoilée est d'abord obtenue. Le profil de vitesse associé peut présenter des points d'inflexion en fonction de la déformation radiale ou du nombre de Reynolds de l'écoulement. Ensuite les approches de stabilité linéaire locale et biglobale sont appliquées à cette solution. Par rapport au cas circulaire, cette étude de stabilité linéaire met en évidence la possible existence d'un ou plusieurs modes amplifiés. Enfin, une simulation numérique LES de la transition laminaire-turbulent de la configuration du montage VALDO est effectuée. / Solid rocket motors may exhibit thrust oscillations induced by pressure oscillations inside the engine. In the scientific literature, the so-called vortex shedding parietal, a hydrodynamic instability specific to the internal flow, has been proven to be the triggering mechanism through linear stability analyses. However, some questions still remain. These oscillations are observed during the second half of Ariane 5 launches only, the laminar-turbulent transition of the intern flow being expected to play a significant role in that behavior. Additionally, non-circular grain shapes used in some engines may impact the stability study. The present PhD work extends the base flow linear stability studies to star-shaped geometries and investigate transition mechanisms in a circular configuration. Firstly, an analytical expression of the base flow in a duct with a star-shaped cross-section is determined. Wall-normal injection is assumed, which is representative of solid rocket engines. The velocity profile may exhibit an inflection point depending on both the Reynolds number and wall radial deformation. Secondly, both local and biglobal stability analyses are applied to this flow. In contrast to the circular case, the flow may exhibit one or several unstable modes. Lastly, a large eddy simulation of the VALDO experimental test bench is performed. The influence of the acoustic impedance of the outflow boundary condition on the amplitude of pressure oscillations is highlighted. Propulsion solide Oscillations de pression Stabilité linéaire Transition Géométrie étoilée Solid propulsion Pressure oscillations Linear stability Laminar-Turbulent transition Star-Shaped geometry 532
28	Prévision de la transition laminaire-turbulent dans le code elsA par la méthode des paraboles / Database approach for laminar-turbulent transition prediction in the RANS solver elsA Bégou, Guillaume 22 January 2018 (has links) Cette thèse propose la reformulation et l'implantation d'une méthode simplifiée de prévision de la transition laminaire-turbulent naturelle, la méthode des paraboles. Elle s'appuie sur une base de donnée pour fournir une expression analytique des taux d'amplification de perturbations modales de la couche limite. Ces perturbations prennent naissance dans la couche limite à travers un mécanisme de réceptivité, puis connaissent une croissance linéaire suivie d'interactions non-linéaires qui conduisent à la transition vers la turbulence.La méthode du facteur-N permet la prévision de la position de transition en supposant qu'elle a lieu quand l'amplification linéaire totale d'un mode des perturbations a atteint une amplitude critique.L'amplification totale est obtenue en intégrant les taux d'amplifications des perturbations le long de la ligne de courant extérieure à la couche limite.Cette formulation intégrale n'est pas adaptée aux codes RANS et ces travaux proposent une reformulation de la méthode du facteur-N sous forme d'équation de transport, dont le terme source dépend du taux d'amplification des perturbations donné par la méthode des paraboles.Le modèle qui en résulte (N-sigma-P ou NSP) permet de déterminer si un point donné est en amont ou en aval du point de transition et ainsi de prévoir la position de transition, pour des configurations où la transition est déclenchée par des modes longitudinaux (ondes de Tollmien-Schlichting) ou transverses (crossflow). / A simplified laminar-turbulent transition prediction method (the so-called parabolas method) is recast into a RANS compatible formulation.The parabolas method is a database approach that gives an estimation of the growth rates of modal perturbations growing in the boundary layer.These perturbations rise through a process called receptivity and undergo a linear modal growth, followed by non-linear interactions that lead to a breakdown to transition. The N-factor (or e-to-N) method predicts the transition location under the assumption that transition occurs when the total linear growth of a mode reaches a prescribed threshold. This total growth is obtained via an integration of a mode's growth rate along the boundary-layer edge streamline. This classical integral formulation is not suitable in a RANS context and is therefore recast into a set of transport equations whose source terms depend on the growth rates given by the parabolas method.The resulting model (N-sigma-P or NSP) predicts if a given point in the flow field is up- or downstream of the transition location. It has been validated for cases where transition was triggered by longitudinal (Tollmien-Schlichting) and crossflow modes. Transition laminaire-Turbulent Rans Méthode des paraboles Modèle de transition Transition naturelle Laminar-Turbulent transition Rans Parabolas method Transition prediction Natural transition 532
29	Análise de estabilidade linear de escoamentos bidimensionais do Fluido Oldroyd-B / Linear Stability Analysis of Two-Dimensional Flow Oldroyd-B fluid Gervazoni, Ellen Silva [UNESP] 27 June 2016 (has links) Submitted by Ellen Silva Gervazoni null (emillen_@hotmail.com) on 2016-08-25T17:45:32Z No. of bitstreams: 1 Disserataçaofinal_EllenGervazoni.pdf: 1426674 bytes, checksum: 25ce3b189028e33485b050b9f7676a94 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-08-29T19:17:40Z (GMT) No. of bitstreams: 1 gervazoni_es_me_prud.pdf: 1426674 bytes, checksum: 25ce3b189028e33485b050b9f7676a94 (MD5) / Made available in DSpace on 2016-08-29T19:17:40Z (GMT). No. of bitstreams: 1 gervazoni_es_me_prud.pdf: 1426674 bytes, checksum: 25ce3b189028e33485b050b9f7676a94 (MD5) Previous issue date: 2016-06-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Diversos escoamentos de interesse prático são de fluidos viscoelásticos e muitas vezes é desejável saber se estes escoamentos propagam-se no estado laminar ou no turbulento. Embora a hidrodinâmica de fluidos viscoelásticos sejam fortemente afetadas pelo balanço entre forças inerciais e elásticas no escoamento, o efeito da elasticidade sobre a estabilidade de escoamentos inerciais não foi completamente estabelecida. No presente trabalho, estuda-se o que ocorre entre estes dois estados, na transição laminar-turbulenta. Especi- ficamente, é investigada a convecção de ondas de Tollmien-Schlichting para o escoamento incompressível de Poiseuille para um fluido viscoelástico, utilizando a equação constitutiva Oldroyd-B. Para isto, utiliza-se a Simulação Numérica Direta para verificar a estabilidade dos escoamentos de fluidos viscoelásticos a perturbações não estacionárias. Os resultados numéricos obtidos para escoamentos de fluidos viscoelásticos são comparados com os resultados de escoamentos de fluidos Newtonianos, que já estão bem documentados na comunidade científica. Além disso, uma equação de Orr-Sommerfeld modificada é deduzida para um escoamento viscoelástico utilizando a Teoria de Estabilidade Linear. / Several flows of practical interest are of viscoelastic fluids and it is often desirable to know if these flows are in a laminar or turbulent state. Although the hydrodynamics of viscoelastic fluids are strongly affected by the balance between inertia and elastic forces in the flow, the effect of elasticity on the stability of inertial flows has not been completely established. In this work is studied what happens between these two states, the laminar-turbulent transition. Specifically, it will be investigated the convection of Tollmien-Schlichting waves to incompressible Poiseuille flow of viscoelastic fluid, using the constitutive equation Oldroyd-B. For this, the analysis is carried out by means of Direct Numerical Simulation to verify the stability of the non-stationary disturbances viscoelastic fluids flows. The numerical results obtained for viscoelastic fluids flows are compared with the results of Newtonian fluids flows, which are already well documented in scientific community. In addition, an Orr-Sommerfeld modified equation is deducted for a viscoelastic flow using Linear Stability Theory. Transição Laminar-Turbulenta Fluidos Viscoelásticos Simulação Numérica Direta Teoria de Estabilidade Linear Laminar-Turbulent Transition Viscoelastic Fluids Direct Numerical Simulation Linear Stability Theory
30	Application Of Neural Network In Predicting Transitional Intermittency From Velocity Signals Chattopadhyay, Manojit 01 1900 (has links) (PDF) No description available. Aerodynamics - Neural Networks Aerodynamic Noise - Neural networks Transitional Intermittency Detection Mean Velocity Prediction Flow Intermittency Laminar Turbulent Transition Zone Boundary Layer Aeronautics

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