The direct numerical simulation (DNS) of two-dimensional compressible turbulent mixing layers is reported in this paper for convective Mach numbers Mc = 0.5, 0.8 and 1.0. All scales of flow are resolved with a 2562 grid, although results are also obtained for 642, 962 and 1282 grids for the purpose of determining the effective accuracy and grid-independence of our calculations. The effect of Mach number is also reported for all the Reynolds stress tensor components and for the “shear” components of the anisotropy tensor, the dissipation tensor, pressure-strain, and the triple correlation tensor. The short-time behaviors of some of these quantities are similar to those reported by Sarkar (1995) for homogeneous shear flow, in spite of the differences in the problem type and initial and boundary conditions. The relative magnitudes and signs of the unclosed terms in the Reynolds stress equations provide information on those that have to be retained for turbulence modeling as well as the sense of their contribution.

Issue Section:
Research Papers
Topics:
Turbulence, Tensors, Mach number, Anisotropy, Boundary-value problems, Computer simulation, Energy dissipation, Flow (Dynamics), Modeling, Pressure, Shear (Mechanics), Shear flow, Stress, Stress tensors
1.
Drummond, J. P., 1988, “A Two-Dimensional Numerical Simulation of a Supersonic, Chemically Reacting Mixing Layer,” NASA TM 4055, Langley Research Center, Hampton, VA.
2.
Ghosh
S.
, and
Matthaeus
W. H.
,
1992
, “
Low Mach Number Two-Dimensional Hydrodynamic Turbulence: Energy Budgets and Density Fluctuations in a Polytropic Fluid
,”
Physics of Fluids
, Vol.
A4
, No.
1
, pp.
148
164
.
3.
Ladeinde
F.
,
1995
, “
Supersonic Flux-Split Procedure for Second Moments of Turbulence
,”
AIAA Journal
, Vol.
33
, No.
7
, pp.
1185
1195
.
4.
Ladeinde
F.
,
O’Brien
E. E.
, and
Cai
X. D.
,
1996
, “
A Parallelized ENO Procedure for Direct Numerical Simulation of Compressible Turbulence
,”
Journal of Scientific Computing
, Vol.
11
, No.
3
, pp.
215
241
.
5.
Ladeinde
F.
,
O’Brien
E. E.
,
Cai
X.
, and
Liu
W.
,
1995
, “
Advection by Poly-tropic Compressible Turbulence
,”
Physics of Fluids
, Vol.
7
, No.
11
, pp.
2848
2857
.
6.
Lee
S.
,
Lele
S. K.
, and
Moin
P.
,
1991
, “
Eddy Shocklets in Decaying Compressible Turbulence
,”
Physics of Fluids
, Vol.
A3
, No.
4
, pp.
657
664
.
7.
Moser
R. D.
, and
Rogers
M. M.
,
1993
, “
The Three-Dimensional Evolution of a Plane Mixing Layer: Pairing and Transition to Turbulence
,”
Journal of Fluid Mechanics
, Vol.
247
, pp.
275
320
.
8.
Poinsot
T. J.
, and
Lele
S. K.
,
1992
, “
Boundary Conditions for Direct Simulations of Compressible Viscous Flows
,”
Journal of Computational Physics
, Vol.
101
, pp.
104
129
.
9.
Sandham
N. D.
, and
Reynolds
W. C.
,
1991
, “
Three-Dimensional Simulations of Large Eddies in the Compressible Mixing Layer
,”
Journal of Fluid Mechanics
, Vol.
224
, pp.
133
158
.
10.
Sandham, N. D., and Yee, H. C, 1989, “A Numerical Study of a Class of TVD Schemes for Compressible Mixing Layers,” NASA TM 102194, Ames Research Center, Moffett Field, CA.
11.
Sarkar
S.
,
1995
, “
The Stabilizing Effect of Compressibility in Turbulent Shear Flow
,”
Journal of Fluid Mechanics
, Vol.
282
, pp.
163
186
.
12.
Sarkar
S.
,
Erlebacher
G.
,
Hussaini
M. Y.
, and
Kreiss
H. O.
,
1991
, “
The Analysis and Modelling of Dilatational Terms in Compressible Turbulence
,”
Journal of Fluid Mechanics
, Vol.
227
, pp.
473
493
.
13.
Shu
C.-W.
, and
Osher
S.
,
1989
, “
Efficient Implementation of Essentially Non-Oscillatory Shock Capturing Schemes II
,”
Journal of Computational Physics
, Vol.
83
, pp.
32
78
.
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