Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical Review E, 2017 - APS
A three-dimensional (3D) direct numerical simulation (DNS) study of the propagation of a
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical Review E, 2017 - portal.research.lu.se
Abstract A three-dimensional (3D) direct numerical simulation (DNS) study of the
propagation of a reaction wave in forced, constant-density, statistically stationary …
propagation of a reaction wave in forced, constant-density, statistically stationary …
[PDF][PDF] Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - PHYSICAL REVIEW E Phys Rev …, 2017 - publications.lib.chalmers.se
The critical point of the theory of turbulent reacting flows stems from averaging reaction rates
subject to fluctuations in the local concentrations and temperature T. The problem is …
subject to fluctuations in the local concentrations and temperature T. The problem is …
[引用][C] Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical Review E, 2017 - elibrary.ru
Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical review. E, 2017 - pubmed.ncbi.nlm.nih.gov
A three-dimensional (3D) direct numerical simulation (DNS) study of the propagation of a
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
[PDF][PDF] Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - PHYSICAL REVIEW E Phys Rev E, 2017 - scholar.archive.org
The critical point of the theory of turbulent reacting flows stems from averaging reaction rates
subject to fluctuations in the local concentrations and temperature T. The problem is …
subject to fluctuations in the local concentrations and temperature T. The problem is …
Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical Review E, 2017 - lup.lub.lu.se
A three-dimensional (3D) direct numerical simulation (DNS) study of the propagation of a
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence.
R Yu, AN Lipatnikov - Physical review. E, 2017 - europepmc.org
A three-dimensional (3D) direct numerical simulation (DNS) study of the propagation of a
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
reaction wave in forced, constant-density, statistically stationary, homogeneous, isotropic …
[PDF][PDF] Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - PHYSICAL REVIEW E Phys Rev E, 2017 - core.ac.uk
The critical point of the theory of turbulent reacting flows stems from averaging reaction rates
subject to fluctuations in the local concentrations and temperature T. The problem is …
subject to fluctuations in the local concentrations and temperature T. The problem is …
Direct numerical simulation study of statistically stationary propagation of a reaction wave in homogeneous turbulence
R Yu, AN Lipatnikov - Physical Review E, 2017 - ui.adsabs.harvard.edu
Abstract A three-dimensional (3D) direct numerical simulation (DNS) study of the
propagation of a reaction wave in forced, constant-density, statistically stationary …
propagation of a reaction wave in forced, constant-density, statistically stationary …