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Title: Scalar excursions in large-eddy simulations

Journal Article · · Journal of Computational Physics
 [1];  [1]
  1. California Inst. of Technology (CalTech), Pasadena, CA (United States)
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Here, the range of values of scalar fields in turbulent flows is bounded by their boundary values, for passive scalars, and by a combination of boundary values, reaction rates, phase changes, etc., for active scalars. The current investigation focuses on the local conservation of passive scalar concentration fields and the ability of the large-eddy simulation (LES) method to observe the boundedness of passive scalar concentrations. In practice, as a result of numerical artifacts, this fundamental constraint is often violated with scalars exhibiting unphysical excursions. The present study characterizes passive-scalar excursions in LES of a shear flow and examines methods for diagnosis and assesment of the problem. The analysis of scalar-excursion statistics provides support of the main hypothesis of the current study that unphysical scalar excursions in LES result from dispersive errors of the convection-term discretization where the subgrid-scale model (SGS) provides insufficient dissipation to produce a sufficiently smooth scalar field. In the LES runs three parameters are varied: the discretization of the convection terms, the SGS model, and grid resolution. Unphysical scalar excursions decrease as the order of accuracy of non-dissipative schemes is increased, but the improvement rate decreases with increasing order of accuracy. Two SGS models are examined, the stretched-vortex and a constant-coefficient Smagorinsky. Scalar excursions strongly depend on the SGS model. The excursions are significantly reduced when the characteristic SGS scale is set to double the grid spacing in runs with the stretched-vortex model. The maximum excursion and volume fraction of excursions outside boundary values show opposite trends with respect to resolution. The maximum unphysical excursions increase as resolution increases, whereas the volume fraction decreases. The reason for the increase in the maximum excursion is statistical and traceable to the number of grid points (sample size) which increases with resolution. In contrast, the volume fraction of unphysical excursions decreases with resolution because the SGS models explored perform better at higher grid resolution.

Research Organization:
California Institute of Technology (CalTech), Pasadena, CA (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA), Office of Defense Programs (DP); US Air Force Office of Scientific Research (AFOSR)
Grant/Contract Number:
NA0002382; FA9550-12-1-0461
OSTI ID:
1343122
Alternate ID(s):
OSTI ID: 1359309
Journal Information:
Journal of Computational Physics, Vol. 327, Issue C; ISSN 0021-9991
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 12 works
Citation information provided by
Web of Science

References (55)

An Intercomparison of Large-Eddy Simulations of the Stable Boundary Layer journal February 2006
The Effects of Numerical Dissipation in Large Eddy Simulations journal October 2000
A further study of numerical errors in large-eddy simulations journal January 2003
Direct numerical simulation of stationary homogeneous stratified sheared turbulence journal March 2012
Large-Eddy Simulation of Stratified Turbulence. Part I: A Vortex-Based Subgrid-Scale Model journal May 2014
The mixing transition in RayleighTaylor instability journal January 1999
The mixing transition in turbulent flows journal April 2000
Turbulent Mixing journal January 2005
Some consequences of the boundedness of scalar fluctuations journal November 1990
Revisiting Numerical Errors in Direct and Large Eddy Simulations of Turbulence: Physical and Spectral Spaces Analysis journal December 2001
An Analysis of Numerical Errors in Large-Eddy Simulations of Turbulence journal April 1996
Numerical Calculation of Time-Dependent Viscous Incompressible Flow of Fluid with Free Surface journal January 1965
Hybrid tuned center-difference-WENO method for large eddy simulations in the presence of strong shocks journal March 2004
Comparison of conservative and rotational forms in large eddy simulation of turbulent channel flow journal August 1987
LES of a Spatially Developing Atmospheric Boundary Layer: Application of a Fringe Method for the Stratocumulus to Shallow Cumulus Cloud Transition journal September 2014
Efficient Implementation of Weighted ENO Schemes journal June 1996
On the Effect of Numerical Errors in Large Eddy Simulations of Turbulent Flows journal March 1997
A stable and accurate convective modelling procedure based on quadratic upstream interpolation journal June 1979
New Trends in Large-Eddy Simulations of Turbulence journal January 1996
Weighted Essentially Non-oscillatory Schemes journal November 1994
Strained spiral vortex model for turbulent fine structure journal January 1982
Large-eddy simulation of mixing in a recirculating shear flow journal March 2010
A recycling method for the large-eddy simulation of plumes in the atmospheric boundary layer journal May 2015
Large-Eddy Simulation of Stratified Turbulence. Part II: Application of the Stretched-Vortex Model to the Atmospheric Boundary Layer journal December 2014
On the Fidelity of Large-Eddy Simulation of Shallow Precipitating Cumulus Convection journal September 2011
Large-eddy simulations of turbulent mixing layers using the stretched-vortex model journal February 2011
A comparison of second- and sixth-order methods for large-eddy simulations journal May 2002
Spectral large-eddy simulation of isotropic and stably stratified turbulence journal June 1992
A vortex-based subgrid stress model for large-eddy simulation journal August 1997
Suitability of Upwind-Biased Finite Difference Schemes for Large-Eddy Simulation of Turbulent Flows journal August 1997
Spectral Analysis of Large-Eddy Simulations of the Convective Boundary Layer journal December 1988
An introduction to SPH journal January 1988
Fully Conservative Higher Order Finite Difference Schemes for Incompressible Flow journal June 1998
A high-resolution Petrov–Galerkin method for the 1D convection–diffusion–reaction problem journal January 2010
On the Elimination of Aliasing in Finite-Difference Schemes by Filtering High-Wavenumber Components journal September 1971
LES approach for high Reynolds number wall-bounded flows with application to turbulent channel flow journal November 2008
Discretization errors in large eddy simulation: on the suitability of centered and upwind-biased compact difference schemes journal August 2004
Ten questions concerning the large-eddy simulation of turbulent flows journal January 2004
A vortex-based model for the subgrid flux of a passive scalar journal September 2000
Reynolds stresses and one‐dimensional spectra for a vortex model of homogeneous anisotropic turbulence journal May 1994
Solution of the Advective Equation by Upstream Interpolation with a Cubic Spline journal January 1976
High Accuracy Compact Schemes and Gibbs' Phenomenon journal December 2004
Quasi-Monotone Advection Schemes Based on Explicit Locally Adaptive Dissipation journal June 1998
General Circulation Experiments with the Primitive Equations: i. the Basic Experiment* journal March 1963
MPDATA: An edge-based unstructured-grid formulation journal July 2005
Iterated upwind schemes for gas dynamics journal January 2009
Spectral methods for the Navier-Stokes equations with one infinite and two periodic directions journal October 1991
Semi-Lagrangian Integration Schemes for Atmospheric Models—A Review journal September 1991
Towards the ultimate conservative difference scheme III. Upstream-centered finite-difference schemes for ideal compressible flow journal March 1977
An improved bounded semi-Lagrangian scheme for the turbulent transport of passive scalars journal September 2014
A physical-space version of the stretched-vortex subgrid-stress model for large-eddy simulation journal July 2000
Comparision of Numerical Schemes in Large-Eddy Simulation of the Temporal Mixing Layer journal February 1996
Two-Dimensional Semi-Lagrangian Transport with Shape-Preserving Interpolation journal January 1989
A particle-gridless hybrid method for incompressible flows journal June 1999
On maximum-principle-satisfying high order schemes for scalar conservation laws journal May 2010

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Turbulence Structure in a Stratocumulus Cloud journal October 2018
LES of Subsonic Reacting Mixing Layers journal December 2019
Turbulent shear-layer mixing: initial conditions, and direct-numerical and large-eddy simulations journal August 2019
Galilean invariance of shallow cumulus convection large-eddy simulations journal February 2021

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
large eddy simulation
numerical methods
numerical model error
scalar mixing
turbulent mixing