We perform high-resolution numerical simulations of homogenous and isotropic compressible turbulence, with an average 3D Mach number close to 0.3. We study the statistical properties of intermittency for velocity, density, and entropy. For the velocity field, which is the only quantity that can be compared to the isotropic incompressible case, we find no statistical differences in its behavior in the inertial range due either to the slight compressibility or to the different dissipative mechanism. For the density field, we find evidence of “frontlike” structures, although no shocks are produced by the simulation.
Benzi, R., Biferale, L., Fisher, R.t., Kadanoff, L., Lamb, D., Toschi, F. (2008). Intermittency and Universality in Fully Developed Inviscid and Weakly Compressible Turbulent Flows. PHYSICAL REVIEW LETTERS, 100(23), 234503-234507 [10.1103/PhysRevLett.100.234503].
Intermittency and Universality in Fully Developed Inviscid and Weakly Compressible Turbulent Flows
BENZI, ROBERTO;BIFERALE, LUCA;
2008-06-01
Abstract
We perform high-resolution numerical simulations of homogenous and isotropic compressible turbulence, with an average 3D Mach number close to 0.3. We study the statistical properties of intermittency for velocity, density, and entropy. For the velocity field, which is the only quantity that can be compared to the isotropic incompressible case, we find no statistical differences in its behavior in the inertial range due either to the slight compressibility or to the different dissipative mechanism. For the density field, we find evidence of “frontlike” structures, although no shocks are produced by the simulation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
