5 resultados para Fluent

em Universidade Federal do Rio Grande do Norte(UFRN)


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The complexity of the Phenomenon of fluid flow in porous way causes a difficulty in its explicit description. Different in the cases where the flow is given through a pipe, where it is possible to measure the length and diameter of the pipe and to determine their ability to flow as a function of pressure, which is a complicated task in porous way. However, we try to approach clearly the equations used to conjecture the behavior of fluid flow in porous way. We made use of the Gambit to create a fractal geometry with the fluent we give the contour´s conditions we would want to analyze the data. The triangular mesh was created; it makes interactions with the discs of different rays, as barriers putted in the geometry. This work presents the results of a simulation with a flow of viscous fluids (oilliquid). The oil flows in a porous way constructed in 2D. The behavior evaluation of the fluid flow inside the porous way was realized with graphics, images and numerical results used for different datas analysis. The study was aimed in relation at the behavior of permeability (k) for different fractal dimensions. Taking into account the preservation of porosity and increasing the fractal distribution of the discs. The results showed that k decreases when we increase the numbers of discs, although the porosity is the same for all generations of the first simulation, in other words, the permeability decreases when we increase the fractality. Well, there are strong turbulence in the flow each time we increase the number of discs and this hinders the passage of the same to the exit. These results permitted to put in evidence how the permeability (k) is affected in a porous way with obstacles distributed in a diversified form. We also note that k decreases when we increase the pressure variation (P) within geometry. So, in front of the results and the absence of bibliographic subsidies about other theories, the work realized here can possibly by considered the unpublished form to explain and reflect on how the permeability is changed when increasing the fractal dimension in a porous way

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The present study provides a methodology that gives a predictive character the computer simulations based on detailed models of the geometry of a porous medium. We using the software FLUENT to investigate the flow of a viscous Newtonian fluid through a random fractal medium which simplifies a two-dimensional disordered porous medium representing a petroleum reservoir. This fractal model is formed by obstacles of various sizes, whose size distribution function follows a power law where exponent is defined as the fractal dimension of fractionation Dff of the model characterizing the process of fragmentation these obstacles. They are randomly disposed in a rectangular channel. The modeling process incorporates modern concepts, scaling laws, to analyze the influence of heterogeneity found in the fields of the porosity and of the permeability in such a way as to characterize the medium in terms of their fractal properties. This procedure allows numerically analyze the measurements of permeability k and the drag coefficient Cd proposed relationships, like power law, for these properties on various modeling schemes. The purpose of this research is to study the variability provided by these heterogeneities where the velocity field and other details of viscous fluid dynamics are obtained by solving numerically the continuity and Navier-Stokes equations at pore level and observe how the fractal dimension of fractionation of the model can affect their hydrodynamic properties. This study were considered two classes of models, models with constant porosity, MPC, and models with varying porosity, MPV. The results have allowed us to find numerical relationship between the permeability, drag coefficient and the fractal dimension of fractionation of the medium. Based on these numerical results we have proposed scaling relations and algebraic expressions involving the relevant parameters of the phenomenon. In this study analytical equations were determined for Dff depending on the geometrical parameters of the models. We also found a relation between the permeability and the drag coefficient which is inversely proportional to one another. As for the difference in behavior it is most striking in the classes of models MPV. That is, the fact that the porosity vary in these models is an additional factor that plays a significant role in flow analysis. Finally, the results proved satisfactory and consistent, which demonstrates the effectiveness of the referred methodology for all applications analyzed in this study.

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In order to question a sociology as it considers appropriate the body dimensions, which contributes in a mean singular in relation to body, not only as a matter, but mainly as a producer of knowledge, our research shows a reflection on corporality as the production of knowledge and to understand different perspectives and social logic here in contemporaneity, whose rationality seems to be placed in question through a performance expressed, a lot of 'breaks', including the space, which the dancer break appropriates of a reversed form and not more than linear. Our problem is the possibility of a greater understanding of this young body with dance the break, is not only 'breaking' his body, but fluent in their own body fragments, producing probably a break in relation to a dominant power established, by creating a kind of 'social resistance' to provide another sense for his life, out of the senses by the dominant of a social field. This is the area of production of knowledge, of the 'body' that cries keep our eyes, the challenge of dive in the depth of gestures, beyond the physical structure, restoring in a strong political constitution and cultural in so far as this body faces. The body as spectacular becomes 'cause and effect' of communication, this body is not only individual, it is not expression only for itself; when the young dance outside their walls individuals, makes it relational, turning to relate with the other, with the space, time and the world. The methodological point of view, to study this corporality in element break, the body as language of senses, we considered withdrawals in the field, observations of movements of the universe of break creative dance, performance and analysis of "attitudes" (expression peculiar world hip hop ), as well as my experience with dancing in the street interventions through 'urban' and our own attitudes to the object of research which challenges us academically and, it all, existentially

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Prétendant contribuer au progrès sur le champ épistémologique de l éducation environnementale, nous avons défini l objetif principal de cette recherche visant construire et évaluer initialement des structures éco-vécues appliquées aux sentiers écologiques interprétatifs dans des zones de protection environnementale. Pour conduire la tâche de l investigation écophénoménologique, l objectif présent a été déplié spécifiquement de la façon suivante: 1. Approfondir la discussion sur le rôle de l émotion et du sentiment dans l éducation. 2. Démarquer un trajet de sentier écologique du Parque das Dunas en identifiant des aires éco-sensorielles pour le développement du vécu écologique. 3. Construire des structures des vécus écologiques pour les environnements préalablement définis dans un sentier du Parque das Dunas. 4. Vivre l expérience des structures éco-vécues en tant qu éducateurs, visant leur validation méthodologique. 5. Présenter la conception de l éducation environnementale corpororalisée qui valorise les émotions et les sentiments dans les structures des éco-vécus. Pour orienter notre investigation écophénoménologique à fin de construire et évaluer des structures des éco-vécues appliquées aux sentiers écologiques interprétatifs, quelques présupposés ont été définis pour agir comme une boussole pendant toute notre promenade écologique: Du point de vue biologique, l amour est l émotion qui constitue le domaine des actions dans lequel l autre est accepté comme il est dans le présent, sans attente par rapport aux conséquences de l intimité, même si c est légitime de les attendre (Maturana e Verden-Zöller, 2004). Éduquer dans la biologie de l amour est s occuper du développement, de la pensée et des intelligences et, au même temps, éduquer l écoute du sentiment et l ouverture du coeur (Moraes, 2003). La corporéité est le siège radiant, le premier et le principal le critère éducationnel (Assmann, 1995). Les activités qui fluent, proportionnent la sensation de découverte, un sentiment créatif qui transpose l individu vers une nouvelle réalité (Csikszntmihalyi, 1992). Ressentir le sentiment fait exalter la portée des émotions (Damásio, 2004). L ethnographie et l écophénoménologie ont été les approches méthodologiques utilisées dans l étude. Onze éducateurs ont participé du processus de l expérience vécue et de l évaluation des structures éco-vécues construites dans la perspective d une Education Environnementale Corporalisée. Le développement de la conception d une Education Environnementale Corporalisée à partir du vécu sur les sentiers écologiques du Parque das Dunas, à Natal-RN, nous a amenés à structurer un système autopoïétique pour proposer des propriétés ou des principes configurant les intentions fondamentales d une Éducation Environnementale Corporalisée. Telle conception considère la métaphore de la Toile de la Corporéité vécue dans la Base de Recherche Corporéité et Éducation BACOR/UFRN et le phénomène de la ludopoïèse capable de faire émerger la joie de vivre la vie avec le sens de luminescence humaine. Associés à la Biologie de l amour, nous espérons pouvoir contribuer à la présence des émotions et des sentiments pour une perspective transdisciplinaire et corporalisée pour l Education Environnementale. Nous présentons cinq principes de guidage pour la concrétisation d une Education Environnementale Corporalisée: Ecopréservation, Ecoterritorialité, Ecoconectivité, Ecovaleur, Ecojouissance

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The present study provides a methodology that gives a predictive character the computer simulations based on detailed models of the geometry of a porous medium. We using the software FLUENT to investigate the flow of a viscous Newtonian fluid through a random fractal medium which simplifies a two-dimensional disordered porous medium representing a petroleum reservoir. This fractal model is formed by obstacles of various sizes, whose size distribution function follows a power law where exponent is defined as the fractal dimension of fractionation Dff of the model characterizing the process of fragmentation these obstacles. They are randomly disposed in a rectangular channel. The modeling process incorporates modern concepts, scaling laws, to analyze the influence of heterogeneity found in the fields of the porosity and of the permeability in such a way as to characterize the medium in terms of their fractal properties. This procedure allows numerically analyze the measurements of permeability k and the drag coefficient Cd proposed relationships, like power law, for these properties on various modeling schemes. The purpose of this research is to study the variability provided by these heterogeneities where the velocity field and other details of viscous fluid dynamics are obtained by solving numerically the continuity and Navier-Stokes equations at pore level and observe how the fractal dimension of fractionation of the model can affect their hydrodynamic properties. This study were considered two classes of models, models with constant porosity, MPC, and models with varying porosity, MPV. The results have allowed us to find numerical relationship between the permeability, drag coefficient and the fractal dimension of fractionation of the medium. Based on these numerical results we have proposed scaling relations and algebraic expressions involving the relevant parameters of the phenomenon. In this study analytical equations were determined for Dff depending on the geometrical parameters of the models. We also found a relation between the permeability and the drag coefficient which is inversely proportional to one another. As for the difference in behavior it is most striking in the classes of models MPV. That is, the fact that the porosity vary in these models is an additional factor that plays a significant role in flow analysis. Finally, the results proved satisfactory and consistent, which demonstrates the effectiveness of the referred methodology for all applications analyzed in this study.