Journal ArticleDOI
On nonlinear K-l and K-ε models of turbulence
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TLDR
In this paper, a nonlinear K-l and K-e model is proposed to predict the normal Reynolds stresses in turbulent channel flow much more accurately than the linear model, and the nonlinear model is shown to be capable of predicting turbulent secondary flows in non-circular ducts.Abstract:
The commonly used linear K-l and K-e models of turbulence are shown to be incapable of accurately predicting turbulent flows where the normal Reynolds stresses play an important role. By means of an asymptotic expansion, nonlinear K-l and K-e models are obtained which, unlike all such previous nonlinear models, satisfy both realizability and the necessary invariance requirements. Calculations are presented which demonstrate that this nonlinear model is able to predict the normal Reynolds stresses in turbulent channel flow much more accurately than the linear model. Furthermore, the nonlinear model is shown to be capable of predicting turbulent secondary flows in non-circular ducts - a phenomenon which the linear models are fundamentally unable to describe. An additional application of this model to the improved prediction of separated flows is discussed briefly along with other possible avenues of future research.read more
Citations
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Journal ArticleDOI
The theoretical foundations and potential for large-eddy simulation (LES) in fluvial geomorphic and sedimentological research
Christopher J. Keylock,Richard J. Hardy,Daniel R. Parsons,Robert I. Ferguson,Stuart N. Lane,Keith Richards +5 more
TL;DR: Large-eddy simulation (LES) is a method for resolving the time-dependent structure of high Reynolds number, turbulent flows as discussed by the authors, and it is possible to model and track the behaviour of coherent turbulent structures and study their effect on the flow field.
Proceedings ArticleDOI
Modeling of high speed reacting flows: established practices and future challenges
TL;DR: An overview of the modeled equations typically employed by commercialquality CFD codes for high-speed combustion applications is provided, and careful attention is given to the approximations employed for each of the unclosed terms in the averaged equation set.
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Large-eddy simulation of a mildly curved open-channel flow
TL;DR: In this paper, a large-eddy simulation (LES) is used to study the open-channel flow through a curved flume, and the effect of changes in the subgrid-scale model and boundary conditions is investigated.
Journal ArticleDOI
Turbulence theories and modelling of fluids and plasmas
TL;DR: Theoretical and heuristic modelling methods for studying turbulence phenomena of fluids and plasmas are reviewed in this article, where emphasis is placed on understanding of effects on turbulence characteristics due to inhomogeneities of field and plasma parameters.
Journal ArticleDOI
Roles of non-aligned eigenvectors of strain-rate and subgrid-scale stress tensors in turbulence generation
TL;DR: In this article, a specific term in the decomposition of the SGS stress tensor, which is primarily responsible for causing this non-alignment, is identified using the nonlinear model.
References
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Journal ArticleDOI
Progress in the development of a Reynolds-stress turbulence closure
TL;DR: In this article, the authors developed a model of turbulence in which the Reynolds stresses are determined from the solution of transport equations for these variables and for the turbulence energy dissipation rate E. Particular attention is given to the approximation of the pressure-strain correlations; the forms adopted appear to give reasonably satisfactory partitioning of the stresses both near walls and in free shear flows.
Journal ArticleDOI
A numerical study of three-dimensional turbulent channel flow at large Reynolds numbers
TL;DR: In this article, the three-dimensional, primitive equations of motion have been integrated numerically in time for the case of turbulent, plane Poiseuille flow at very large Reynolds numbers.
Journal ArticleDOI
Numerical investigation of turbulent channel flow
Parviz Moin,John Kim +1 more
TL;DR: In this article, a large-scale flow field was obtained by directly integrating the filtered, three-dimensional, time dependent, Navier-Stokes equations, and small-scale field motions were simulated through an eddy viscosity model.
Book ChapterDOI
Computational Modeling of Turbulent Flows
TL;DR: In this article, it is shown that direct simulation is not an alternative for practical computation and that the various sophisticated closures suffer from essentially the same problems as the direct simulations and therefore, are limited to homogeneous situations.
Journal ArticleDOI
A Reynolds stress model of turbulence and its application to thin shear flows
Kemal Hanjalic,Brian Launder +1 more
TL;DR: In this paper, the authors provided a model of turbulence which effects closure through approximated transport equations for the Reynolds stress tensor the turbulence energy κ and e.g., the turbulent shear stress does not vanish where the mean rate of strain goes to zero.