Lean flame blowout is investigated experimentally within a high-speed combustor to analyze the temporal extinction dynamics of turbulent premixed bluff body stabilized flames. The lean blowout process is induced through fuel flow reduction and captured temporally using simultaneous high-speed particle imaging velocimetry (PIV) and CH* chemiluminescence. The evolution of the flame structure, flow field, and the resulting strain rate along the flame are analyzed throughout extinction to distinguish the physical mechanisms of blowout. Flame-vortex dynamics are found to be the main driving mechanism of flame extinction; namely, a reduction of flame-generated vorticity coupled with an increase of downstream shear layer vorticity. The vorticity d...
Using a combination of HCHO planar laser-induced fluorescence and laser Doppler velocimetry mea-sure...
International audienceThe understanding of flame stabilization is a requirement for the development ...
International audienceThis paper reports an experimental study where flame structure, flow topology ...
An improved understanding of lean turbulent combustion phenomena is critical for the development of ...
Flame extinction analysis of lean, premixed propane-air flames is conducted using a ballistic bluff-...
Flame extinction continues to hinder the performance of combustion technologies used in propulsion s...
A ballistic bluff-body flameholder is utilized to stabilize turbulent, premixed propane-air flames i...
Flame extinction is a critical impediment invariably limiting the performance of modern turbulent co...
Lean blowout is experimentally investigated for premixed bluff-body flames under various inlet veloc...
Important problems related to the governing mechanism of flame blowoff in bluff body stabilized turb...
Turbulent flame holding and blowoff characteristics of bluff body stabilized flames were measured in...
This work examines the evolution of the lean blowout (LBO) process in a swirl-dumpstabilized combust...
Flame dynamics of a bluff body stabilized turbulent premixed flame as it approaches lean blowoff is ...
In bluff body-stabilized flames, a variety of physical phenomena contribute to the flame destabiliza...
Lean blowout (LBO) of a partially premixed swirl flame is studied using chemilu-minescence imaging a...
Using a combination of HCHO planar laser-induced fluorescence and laser Doppler velocimetry mea-sure...
International audienceThe understanding of flame stabilization is a requirement for the development ...
International audienceThis paper reports an experimental study where flame structure, flow topology ...
An improved understanding of lean turbulent combustion phenomena is critical for the development of ...
Flame extinction analysis of lean, premixed propane-air flames is conducted using a ballistic bluff-...
Flame extinction continues to hinder the performance of combustion technologies used in propulsion s...
A ballistic bluff-body flameholder is utilized to stabilize turbulent, premixed propane-air flames i...
Flame extinction is a critical impediment invariably limiting the performance of modern turbulent co...
Lean blowout is experimentally investigated for premixed bluff-body flames under various inlet veloc...
Important problems related to the governing mechanism of flame blowoff in bluff body stabilized turb...
Turbulent flame holding and blowoff characteristics of bluff body stabilized flames were measured in...
This work examines the evolution of the lean blowout (LBO) process in a swirl-dumpstabilized combust...
Flame dynamics of a bluff body stabilized turbulent premixed flame as it approaches lean blowoff is ...
In bluff body-stabilized flames, a variety of physical phenomena contribute to the flame destabiliza...
Lean blowout (LBO) of a partially premixed swirl flame is studied using chemilu-minescence imaging a...
Using a combination of HCHO planar laser-induced fluorescence and laser Doppler velocimetry mea-sure...
International audienceThe understanding of flame stabilization is a requirement for the development ...
International audienceThis paper reports an experimental study where flame structure, flow topology ...