Minimum volume stability limits for axisymmetric liquid bridges subject to steady axial acceleration

In this paper the influence of an axial microgravity on the minimum volume stability limit of axisymmetric liquid bridges between unequal disks is analyzed both theoretically and experimentally. The results here presented extend the knowledge of the static behaviour of liquid bridges to fluid configurations different from those studied up to now (almost equal disks). Experimental results, obtained by simulating microgravity conditions by the neutral buoyancy technique, are also presented and are shown to be in complete agreement with theoretical ones.

Stability limits of minimum volume and breaking axisymmetric liquid bridges between unequal disks

This paper deals with the stability limits of minimum volume and the breaking of axisymmetric liquid columns held by capillary forces between two concentric,circular solid disk of different radii. The problem has been analyzed both theoreti-cally and experimentally. A theoretical analysis concerning the breaking of liquid bridges has been performed by using a one-dimensional slice model already used in liquid bridge problems. Experiments have been carried out by using milli-metric liquid bridges, and minimum volume stability limits as well as the volumes of the drops resulting after breaking have been measured for a large number of liquid bridge configurations. Experimental results being in agreement with theoretical prediction.

On the stability limits of long nonaxisymmetric cylindrical liquid bridges

There is a self-similar solution for the stability limits of long, almost cylindrical liquid bridges between equal disks subjected to both axial and lateral accelerations. The stability limits depend on only two variables; the so-called reduced axial, and lateral Bond numbers. A novel experimental setup that involved rotating a horizontal cylindrical liquid bridge about a vertical axis of rotation was designed to test the stability limits predicted by the self-similar solution. Analytical predictions compared well with both numerical and experimental results.

Thermodynamic stability of nanosized multicomponent bubbles/droplets: The square gradient theory and the capillary approach

Formation of nanosized droplets/bubbles from a metastable bulk phase is connected to many unresolved scientific questions. We analyze the properties and stability of multicomponent droplets and bubbles in the canonical ensemble, and compare with single-component systems. The bubbles/droplets are described on the mesoscopic level by square gradient theory. Furthermore, we compare the results to a capillary model which gives a macroscopic description. Remarkably, the solutions of the square gradient model, representing bubbles and droplets, are accurately reproduced by the capillary model except in the vicinity of the spinodals. The solutions of the square gradient model form closed loops, which shows the inherent symmetry and connected nature of bubbles and droplets. A thermodynamic stability analysis is carried out, where the second variation of the square gradient description is compared to the eigenvalues of the Hessian matrix in the capillary description. The analysis shows that it is impossible to stabilize arbitrarily small bubbles or droplets in closed systems and gives insight into metastable regions close to the minimum bubble/droplet radii. Despite the large difference in complexity, the square gradient and the capillary model predict the same finite threshold sizes and very similar stability limits for bubbles and droplets, both for single-component and two-component systems.

Floating zone stability

The present state of de preparation of an experiment on floating liquid zones to be performed in the first Spacelab flight is presented. In this experiment,a liquid bridge is to be placed between two parallel coaxial disks (in the Fluid Physics Module)and subjected to very precise disturbances in order to check the theoretical predictions about its stability limits and behavior under mechanical inputs: stretching of the zone, filling or removing the liquid,axial vibration, rotation, disalignment, etc. Several aspects of the research are introduced:1) Relevance of the study. 2) Theoretical predictions of the liquid behavior regarding the floating-zone stability limits and the expected response to vibrational and rotational disturbances. 3) Ground support experiments using the Plateau technique or the small scale simulation. 4) Instrumental aspects of the experimentation: the Fluid Physics Module utilization and post-flight data analysis.5)Research program for future flights.

Axisymmetric long liquid bridges stability and resonances

In this paper mathematical expressions for minimum-volume stability limits and resonance frequencies of axisymmetric long liquid bridges are presented. These expressions are valid for a wide range of liquid bridge configurations, accounting for ef-fects like unequal disks and axial microgravity in the case of minimum-volume stability limits,and unequal disks, axial microgravity,non-zero viscosity and liquid bridge volume different from the cylindrical one in the case of resonance frequencies.

Dynamic stability of long axisymmetric liquid bridges

This paper deals with the non-linear forced oscillations of axisymmetric long liquid bridges between equal disks. The dynamics of the liquid bridge has been analyzed by using a self-similar, one-dimensional model already used in similar problems. The influence of the dynamics on the static stability limits, as well as the main characteristics of the non-linear behaviour of long liquid bridges, have been studied with in the range of validity of the mathematical model used here.

Stability of liquid bridges between an elliptical and a circular supporting disk

A numerical method has been developed to determine the stability limits for liquid bridges held between noncircular supporting disks and the application to a configuration with a circular and an elliptical disk subjected to axial acceleration has been made. The numerical method led to results very different from the available analytical solution which has been revisited and a better approximation has been obtained. It has been found that just retaining one more term in the asymptotic analysis the solution reproduces the real behavior of the configuration and the numerical results.

Variabilidade dos limites de estabilidade na posição ortostática em utentes com Acidente Vascular Encefálico

Introdução: O controlo postural (CP), intimamente ligado aos limites de estabilidade, é fundamental nas atividades da vida diária e encontra-se comprometido após Acidente Vascular Encefálico (AVE). Objectivo: Descrever as alterações nos limites de estabilidade, na posição ortostática, em utentes com AVE, face à aplicação de um programa de intervenção baseado num processo de raciocínio clínico. Métodos: Estudo de série de casos, de três indivíduos com alterações do CP do tronco e/ou das grandes articulações, decorrentes de AVE, mas capazes de assumir e manter a posição ortostática. Para avaliar os limites de estabilidade foram utilizados a plataforma de pressões Emed (coordenadas do centro de pressão, COPx e COPy) e o MultidirectionalReachTest (MDRT). Foram também aplicadas, a Fugl-Meyer Assessmentof Sensoriomotor Recovery After Stroke (FMA) e a Berg Balance Scale (BBS). Os instrumentos de avaliação foram aplicados antes e após a intervenção (M0 e M1), de 8 semanas, baseada nos princípios do conceito de Bobath. Resultados: Os valores dos testes de alcance no MDRT aumentaram em todos os utentes. Os limites e os deslocamentos médio-lateral (COPx) e, ântero-posterior (COPy) dos valores do CPr aumentaram, entre M0 e M1. No que se refere à FMA e a BBS, verificou-se que todos apresentaram um aumento dos scores. Conclusão: Os utentes modificaram os seus limites de estabilidade no sentido do aumento, assim como, da função motora e do equilíbrio. Deste modo, a intervenção de acordo com os princípios do conceito de Bobath aparenta introduzir os estímulos necessários à reorganização funcional do sistema nervoso central lesado.

Contrôle postural et intégration sensorielle chez l’enfant en santé, chez l’adolescent atteint du syndrome Gilles de la Tourette ainsi que chez l’adulte atteint de la maladie de Huntington

Le contrôle postural et la perception des limites de la stabilité sont des processus complexes qui nécessitent le traitement et l’intégration d’informations sensorielles multimodales. Pendant l’enfance, le développement de la stabilité posturale s’effectue de façon non-monotonique. Plusieurs auteurs ont suggéré que ce profil non linéaire serait provoqué par une période de recalibration des systèmes sensoriels. Cette phase, nommée période de transition, est observée vers l’âge de 6-7 ans. Nous disposons toutefois de très peu d’information sur le rôle spécifique des afférences et des mécanismes d’intégration sensorielle au cours du développement postural. Les dysfonctions dans les noyaux gris centraux, telles que ceux observés dans la maladie de Parkinson, ont été associées à divers déficits dans le contrôle de la posture, dans le traitement et l’intégration sensoriel plus particulièrement, au niveau des informations proprioceptives. De plus, les limites fonctionnelles de la stabilité posturale des personnes atteintes de la maladie de Parkinson sont significativement réduites. Cependant, les connaissances concernant comment certaines pathologies des noyaux gris centraux, telles que le syndrome Gilles de la Tourette (SGT) et la maladie de Huntington (MH) affectent la capacité d’utiliser les informations sensorielles pour contrôler la posture demeurent à ce jour, incomplètes. Cette thèse porte sur le rôle des noyaux gris centraux dans les processus de traitements et d’intégration sensorielle, particulièrement les afférences proprioceptives dans le contrôle de la posture au cours du développement de l’enfant en santé, atteint du SGT et chez l’adulte atteint de la MH avec et sans symptôme clinique. Notre protocole expérimental a été testé chez ces trois populations (enfants en santé, SGT et MH). Nous avons utilisé des mesures quantitatives à partir de données issues d’une plateforme de force afin d’évaluer les ajustements posturaux dans les limites de la stabilité posturale. Les participants devaient s’incliner le plus loin possible dans quatre différentes directions (avant, arrière, droite et gauche) et maintenir l’inclinaison posturale maximale pendant 10 secondes. Afin de tester la capacité à traiter et à intégrer les informations sensorielles, la tâche expérimentale a été exécutée dans trois conditions sensorielles : 1) yeux ouverts, 2) yeux fermés et 3) yeux fermés, debout sur une mousse. Ainsi, la contribution relative de la proprioception pour le contrôle postural augmente à travers les conditions sensorielles. Dans la première étude, nous avons évalué la capacité à traiter et à intégrer les informations sensorielles avant (4 ans) et après (8-10 ans) la période de transition comparativement aux adultes. Dans la deuxième et la troisième étude, nous avons également évalué le traitement et l’intégration des informations sensorielles chez les patients atteints de désordres des noyaux gris centraux. La deuxième étude portera spécifiquement sur les adolescents atteints du SGT et la troisième, sur la MH avant et après l’apparition des symptômes cliniques. En somme, les résultats de la première étude ont démontré que la performance des enfants est affectée de façon similaire par les différentes conditions sensorielles avant et après la période de transition. Toutefois, le profil de développement des mécanismes responsables des ajustements posturaux de l’axe antéropostérieur est plus précoce comparativement à ceux de l’axe médiolatéral. Ainsi, nos résultats ne supportent pas l’hypothèse de la période de recalibration des systèmes sensoriels pendant cette période ontogénétique mais suggèrent que la période de transition peut être expliquée par la maturation précoce des mécanismes d’ajustements posturaux dans l’axe antéropostérieur. Dans l’ensemble, les résultats de nos études chez les populations atteintes de désordres des noyaux gris centraux (MH et SGT) démontrent non seulement qu’ils ont des déficits posturaux mais également que les ajustements posturaux dans les deux axes sont affectés par les conditions sensorielles. Pour la première fois, nos études démontrent des déficits globaux de traitements et d’intégration sensorielle accentués pour les signaux proprioceptifs. Ces résultats sont similaires à ceux observés dans la maladie de Parkinson. De plus, les adolescents atteints du SGT éprouvent également des troubles posturaux marqués dans la condition visuelle ce qui suggère des déficits d’intégrations visuelles et/ou multimodaux.

Runge-Kutta IMEX schemes for the Horizontally Explicit/Vertically Implicit (HEVI) solution of wave equations

Many operational weather forecasting centres use semi-implicit time-stepping schemes because of their good efficiency. However, as computers become ever more parallel, horizontally explicit solutions of the equations of atmospheric motion might become an attractive alternative due to the additional inter-processor communication of implicit methods. Implicit and explicit (IMEX) time-stepping schemes have long been combined in models of the atmosphere using semi-implicit, split-explicit or HEVI splitting. However, most studies of the accuracy and stability of IMEX schemes have been limited to the parabolic case of advection–diffusion equations. We demonstrate how a number of Runge–Kutta IMEX schemes can be used to solve hyperbolic wave equations either semi-implicitly or HEVI. A new form of HEVI splitting is proposed, UfPreb, which dramatically improves accuracy and stability of simulations of gravity waves in stratified flow. As a consequence it is found that there are HEVI schemes that do not lose accuracy in comparison to semi-implicit ones. The stability limits of a number of variations of trapezoidal implicit and some Runge–Kutta IMEX schemes are found and the schemes are tested on two vertical slice cases using the compressible Boussinesq equations split into various combinations of implicit and explicit terms. Some of the Runge–Kutta schemes are found to be beneficial over trapezoidal, especially since they damp high frequencies without dropping to first-order accuracy. We test schemes that are not formally accurate for stiff systems but in stiff limits (nearly incompressible) and find that they can perform well. The scheme ARK2(2,3,2) performs the best in the tests.

Estabilizador de sistema de potência para máquinas síncronas de polos salientes utilizando a transformada Wavelet

The power system stabilizers are used to suppress low-frequency electromechanical oscillations and improve the synchronous generator stability limits. This master thesis proposes a wavelet-based power system stabilizer, composed of a new methodology for extraction and compensation of electromechanical oscillations in electrical power systems based on the scaling coefficient energy of the maximal overlap discrete wavelet transform in order to reduce the effects of delay and attenuation of conventional power system stabilizers. Moreover, the wavelet coefficient energy is used for electric oscillation detection and triggering the power system stabilizer only in fault situations. The performance of the proposed power system stabilizer was assessed with experimental results and comparison with the conventional power system stabilizer. Furthermore, the effects of the mother wavelet were also evaluated in this work

Método analítico para análise da estabilidade do gerador assíncrono através do monitoramento da tensão

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

A influência do controlador gupfc no sistema elétrico de potência visando a estabilidade a pequenas perturbações

Pós-graduação em Engenharia Elétrica - FEIS

The dynamics of axisymmetric slender liquid bridges between unequal disks

n this paper the influence of an axial microgravity on the dynamic stability of axisymmetric slender liquid bridges between unequal disks is numerically studied by using a one-dimensional theory. The breaking of such liquid configurations is analyzed and the dependence of some overall characteristics of the breaking process on the value of axial microgravity, the geometry and the volume of the liquid bridge, as well as stability limits are obtained.