Journal ArticleDOI
Large-eddy simulation of turbulent confined coannular jets
Knut Akselvoll,Parviz Moin +1 more
TLDR
In this paper, a large-eddy simulation was used to study mixing of turbulent, coannular jets discharging into a sudden expansion, which resembles that of a coaxial jet-combustor, and the goal of the calculation was to gain some insight into the phenomena leading to lean blowout in such combustion devices.Abstract:
Large-eddy simulation (LES) was used to study mixing of turbulent, coannular jets discharging into a sudden expansion. This geometry resembles that of a coaxial jet-combustor, and the goal of the calculation was to gain some insight into the phenomena leading to lean blow-out (LBO) in such combustion devices. This is a first step in a series of calculations, where the focus is on the fluid dynamical aspects of the mixing process in the combustion chamber. The effects of swirl, chemical reactions and heat release were not taken into account. Mixing of fuel and oxidizer was studied by tracking a passive scalar introduced in the central jet. The dynamic subgrid-scale (DM) model was used to model both the subgrid-scale stresses and the subgrid-scale scalar flux. The Reynolds number was 38000, based on the bulk velocity and diameter of the combustion chamber. Mean velocities and Reynolds stresses are in good agreement with experimental data. Animated results clearly show that intermittent pockets of fuel-rich fluid (from the central jet) are able to cross the annular jet, virtually undiluted, into the recirculation zone. Most of the fuel-rich fluid is, however, entrained into the recirculation zone near the instantaneous reattachment point. Fuel trapped in the recirculation zone is, for the most part, entrained back into the step shear layer close to the base of the burner.read more
Citations
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Journal ArticleDOI
DIRECT NUMERICAL SIMULATION: A Tool in Turbulence Research
Parviz Moin,Krishnan Mahesh +1 more
TL;DR: In this article, direct numerical simulation (DNS) of turbulent flows has been reviewed and the complementary nature of experiments and computations in turbulence research has been illustrated, as well as how DNS has impacted turbulence modeling and provided further insight into the structure of turbulent boundary layers.
Journal ArticleDOI
Scale-Invariance and Turbulence Models for Large-Eddy Simulation
Charles Meneveau,Joseph Katz +1 more
TL;DR: In this article, a review of scale-invariance properties of high-Reynolds-number turbulence in the inertial range is presented, focusing on dynamic and similarity subgrid models and evaluating how well these models reproduce the true impact of the small scales on large scale physics and how they perform in numerical simulations.
Journal ArticleDOI
Progress-variable approach for large-eddy simulation of non-premixed turbulent combustion
Charles D. Pierce,Parviz Moin +1 more
TL;DR: In this article, a new approach to chemistry modelling for large-eddy simulation of turbulent reacting flows is developed, whereby all of the detailed chemical processes are mapped to a reduced system of tracking scalars.
Journal ArticleDOI
High order conservative finite difference scheme for variable density low Mach number turbulent flows
TL;DR: The overall numerical scheme obtained is highly suitable for the simulation of reactive turbulent flows in realistic geometries, for it combines arbitrarily high order of accuracy, discrete conservation of mass, momentum, and energy with consistent boundary conditions.
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Simulations of bypass transition
Robert G. Jacobs,Paul A. Durbin +1 more
TL;DR: In this article, a simulation of the laminar boundary layer passing through free-stream turbulence is performed numerically using numerical flow fields, and a method to construct turbulent inflow from Orr-Sommerfeld continuous modes is described.
References
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Journal ArticleDOI
A dynamic subgrid‐scale eddy viscosity model
TL;DR: In this article, a new eddy viscosity model is presented which alleviates many of the drawbacks of the existing subgrid-scale stress models, such as the inability to represent correctly with a single universal constant different turbulent fields in rotating or sheared flows, near solid walls, or in transitional regimes.
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A dynamic subgrid‐scale model for compressible turbulence and scalar transport
TL;DR: Germano et al. as discussed by the authors generalized the dynamic subgrid-scale (SGS) model for the large eddy simulation (LES) of compressible flows and transport of a scalar.
Journal ArticleDOI
Spectral methods for the Navier-Stokes equations with one infinite and two periodic directions
TL;DR: In this paper, the Navier-Stokes equations in boundary layers and mixing layers are solved by two numerical methods which employ rapidly decaying spectral basis functions to approximate the vertical dependence of the solutions.
Mass and Momentum Turbulent Transport Experiments with Confined Coaxial Jets
B. V. Johnson,J. C. Bennett +1 more
TL;DR: In this paper, a combination of turbulent momentum transport rate and two velocity component data were obtained from simultaneous measurements with a two color laser velocimeter (LV) system for the evaluation and improvement of turbulent transport models currently used in a variety of computational procedures throughout the propulsion community for combustor flow modeling.
Journal ArticleDOI
Statistical Characteristics of Velocity, Concentration, Mass Transport, and Momentum Transport for Coaxial Jet Mixing in a Confined Duct
B. V. Johnson,J. C. Bennett +1 more
TL;DR: In this paper, les donnees experimentales en vue de l'evaluation and de l amelioration des modeles de transport couramment utilises for the modelisation des ecoulements dans les chambres de combustion.