Media Summary: This video represents the velocity magnitude during the Injection of a premixed kerosene/air mixture on the left with a high level of turbulence. Some kerosene droplets are added to this ... The 3D mesh features a resolution of 100 microns and 2.6 billion tetrahedrons. The run was performed with 16'384 cores of the ...

Yales2 Flame Kernel Development In - Detailed Analysis & Overview

This video represents the velocity magnitude during the Injection of a premixed kerosene/air mixture on the left with a high level of turbulence. Some kerosene droplets are added to this ... The 3D mesh features a resolution of 100 microns and 2.6 billion tetrahedrons. The run was performed with 16'384 cores of the ... Large-Eddy Simulation of an n-heptane/air spray Primary atomization of a liquid jet from a triple disk injector (Grout et al 2007) computed with Large-Eddy Simulation of Brice Michel's experiment focusing on film cooling with multiperforated plates.

Automatic mesh adaptation of a Jet Impingement heat exchanger. The initial mesh is 17 M cells. After adaptation, the final mesh ...

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[YALES2] 2D flame kernel development in a stratified mixture
[YALES2] Flame kernel development in a stratified mixture
[YALES2] pouring_20k_phi.avi
[YALES2] Simulation of a 2D HIT with a reacting kerosene spray with YALES2
[YALES2] Direct Numerical Simulation of a realistic burner from the PRECCINSTA project
[YALES2] Simulation of the PRECCINSTA burner with detailed chemistry on 877M tetrahedra
[YALES2] LES of the CRSB Burner
[YALES2] Large Eddy Simulation of a spray flame
[YALES2] Simulation of the PRECCINSTA burner with mesh adaptation technique
[YALES2] Primary atomization from the triple disk injector
[YALES2] Large Eddy Simulation of a Spray flame
[YALES2] multiperforated plate model in YALES2
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[YALES2] 2D flame kernel development in a stratified mixture

[YALES2] 2D flame kernel development in a stratified mixture

This video represents the velocity magnitude during the

[YALES2] Flame kernel development in a stratified mixture

[YALES2] Flame kernel development in a stratified mixture

Large-Eddy Simulation of the

[YALES2] pouring_20k_phi.avi

[YALES2] pouring_20k_phi.avi

2D two-phase computation performed with

[YALES2] Simulation of a 2D HIT with a reacting kerosene spray with YALES2

[YALES2] Simulation of a 2D HIT with a reacting kerosene spray with YALES2

Injection of a premixed kerosene/air mixture on the left with a high level of turbulence. Some kerosene droplets are added to this ...

[YALES2] Direct Numerical Simulation of a realistic burner from the PRECCINSTA project

[YALES2] Direct Numerical Simulation of a realistic burner from the PRECCINSTA project

The 3D mesh features a resolution of 100 microns and 2.6 billion tetrahedrons. The run was performed with 16'384 cores of the ...

[YALES2] Simulation of the PRECCINSTA burner with detailed chemistry on 877M tetrahedra

[YALES2] Simulation of the PRECCINSTA burner with detailed chemistry on 877M tetrahedra

The

[YALES2] LES of the CRSB Burner

[YALES2] LES of the CRSB Burner

Large-Eddy Simulation of an n-heptane/air spray

[YALES2] Large Eddy Simulation of a spray flame

[YALES2] Large Eddy Simulation of a spray flame

Large Eddy Simulation of a spray

[YALES2] Simulation of the PRECCINSTA burner with mesh adaptation technique

[YALES2] Simulation of the PRECCINSTA burner with mesh adaptation technique

The

[YALES2] Primary atomization from the triple disk injector

[YALES2] Primary atomization from the triple disk injector

Primary atomization of a liquid jet from a triple disk injector (Grout et al 2007) computed with

[YALES2] Large Eddy Simulation of a Spray flame

[YALES2] Large Eddy Simulation of a Spray flame

Large Eddy Simulation of a spray

[YALES2] multiperforated plate model in YALES2

[YALES2] multiperforated plate model in YALES2

Large-Eddy Simulation of Brice Michel's experiment focusing on film cooling with multiperforated plates.

[YALES2] Mesh Adaptation for Complex Aerothermal Simulations

[YALES2] Mesh Adaptation for Complex Aerothermal Simulations

Automatic mesh adaptation of a Jet Impingement heat exchanger. The initial mesh is 17 M cells. After adaptation, the final mesh ...