Experimental study of the inverse diffusion flame using high repetition rate OH/acetone PLIF and PIV

Engineering

• Planar Laser-Induced Fluorescence 100%
• Diffusion Flame 100%
• Particle Image Velocimetry 100%
• Repetition Rate 100%
• Ignition 28%
• Mass Transfer 28%
• Equivalence Ratio 14%
• Strain Rate 14%
• Airflow Rate 14%
• Jet Reynolds Number 14%
• Laser-Induced Fluorescence Imaging 14%
• Image Processing Method 14%
• Combustion Zone 14%
• Mixing Zone 14%
• Flow Structure 14%

Keyphrases

• Entrainment Zone 40%
• Combustion Zone 20%
• Vortical Flow Structures 20%
• Flame Appearance 20%
• Image Processing Method 20%
• Laser-induced Fluorescence Imaging 20%
• Load Mass 20%
• Strain Rate Field 20%
• Mixing Zone 20%
• Laminar Inverse Diffusion Flame 20%