Laws Of The Wall
Mostrando 1-9 de 9 artigos, teses e dissertações.
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1. The numerical modeling of thermal turbulent wall flows with the classical κ - ε model
The goal of this work is to propose a new methodology to simulate turbulent thermal wall flows using the classical κ - ε model. The focus of this approach is based on the manner used to implement heat flux boundary conditions on the solid walls. In order to explain and to validate this new algorithm, several test cases are presented, testing a great range
Journal of the Brazilian Society of Mechanical Sciences and Engineering. Publicado em: 2011-03
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2. Um estudo numérico sobre a transferência de calor na camada limite turbulenta
The present work is a numerical study on the applicaion of analogies between heat and momentum difusion as a methodology to impose heat flux boundary conditions in turbulent boundary layer flows. In order to validate the proposed methodology the following cases were tested: a) a study of turbulent flows over slightly heated flat plates and with unheated star
Publicado em: 2009
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3. A K − W turbulence model for near-wall thermal flows / Um modelo k − w para escoamentos turbulentos parietais dilatáveis
The main goal of this work is to extend the K − W turbulence model proposed by Bredberg (2002), originally developed in order to simulate turbulent isothermal flows in which adverse pressure gradients occur, to simulate the effects of density variations exclusively due to the presence of thermal gradients - cases vastly applied in industry - implementi
Publicado em: 2006
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4. Loteamentos fechados e condomínios residenciais em São José do Rio Preto
There is a dispersive thinking about closed plots of lands and residential condominiums which are types of new configurations in the Brazilian territory. The objective of this work is analyzes the kinds of homes in condominiums, closed between wall. It presents milestones of all the home condominiums implementations in São José do Rio Preto city. The main
Publicado em: 2006
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5. Alternative Derivations of the Statistical Mechanical Distribution Laws
A new approach is presented for the derivation of statistical mechanical distribution laws. The derivations are accomplished by minimizing the Helmholtz free energy under constant temperature and volume, instead of maximizing the entropy under constant energy and volume. An alternative method involves stipulating equality of chemical potential, or equality o
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6. Small viscosity asymptotics for the inertial range of local structure and for the wall region of wall-bounded turbulent shear flow.
The small viscosity asymptotics of the inertial range of local structure and of the wall region in wallbounded turbulent shear flow are compared. The comparison leads to a sharpening of the dichotomy between Reynolds number dependent scaling (power-type) laws and the universal Reynolds number independent logarithmic law in wall turbulence. It further leads t
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7. Characteristic length scale of the intermediate structure in zero-pressure-gradient boundary layer flow
In a turbulent boundary layer over a smooth flat plate with zero pressure gradient, the intermediate structure between the viscous sublayer and the free stream consists of two layers: one adjacent to the viscous sublayer and one adjacent to the free stream. When the level of turbulence in the free stream is low, the boundary between the two layers is sharp,
The National Academy of Sciences.
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8. Extraction of morphometry and branching angles of porcine coronary arterial tree from CT images
The morphometry (diameters, length, and angles) of coronary arteries is related to their function. A simple, easy, and accurate image-based method to seamlessly extract the morphometry for coronary arteries is of significant value for understanding the structure-function relation. Here, the morphometry of large (≥1 mm in diameter) coronary arteries was ext
American Physiological Society.
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9. A model of a turbulent boundary layer with a nonzero pressure gradient
According to a model of the turbulent boundary layer that we propose, in the absence of external turbulence the intermediate region between the viscous sublayer and the external flow consists of two sharply separated self-similar structures. The velocity distribution in these structures is described by two different scaling laws. The mean velocity u in the r
The National Academy of Sciences.