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This study from the School of Aerospace, Mechanical & Mechatronic Engineering at The University of Sydney explores the application of masking techniques to Acetone Laser-Induced Fluorescence (LIF) in turbulent combustion analysis. We compare Planar Laser-Induced Fluorescence (PLIF) with air and nitrogen as carrier gases, highlighting the differences in spray flame development. Key findings include insights from joint PLIF of Acetone-OH in spray flames at various dimensions (x/d=2-22 and x/d=12), enhancing our understanding of turbulent combustion dynamics.
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Spray Flames Sten Starner School of Aerospace, Mechanical & Mechatronic Engineering, The University of Sydney, NSW, Australia
Masking technique applied to Acetone LIF Recent Advances in our Understanding of Turbulent Combustion
Comparison of PLIF with Air and N2 as carriers Recent Advances in our Understanding of Turbulent Combustion
PLIF Acetone/OH showing spray flame development (x/d=2-22) Recent Advances in our Understanding of Turbulent Combustion
Joint PILF of Acetone-OH in a spray flame with air as carrier (x/d=12) Recent Advances in our Understanding of Turbulent Combustion
Joint PILF of Acetone-OH in a spray flame with N2 as carrier (x/d=12) Recent Advances in our Understanding of Turbulent Combustion
Joint PILF of Acetone-OH in a spray flame with N2 as carrier (x/d=12) Recent Advances in our Understanding of Turbulent Combustion
Joint PILF of Acetone-OH in a spray flame with air as carrier (x/d=12) Recent Advances in our Understanding of Turbulent Combustion
