Direct experiments reveal rotating premixed flames in a cavity-equipped Hele-Shaw burner that transition from single-headed to multi-headed rotating modes to steady rings as flow rate increases, with critical transition flow rates insensitive to equivalence ratio, gap distance, and fuel type.
Veiga-L ´opez, D
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Cavity-Stabilized Rotating Flames in a Circular Hele-Shaw Burner
Direct experiments reveal rotating premixed flames in a cavity-equipped Hele-Shaw burner that transition from single-headed to multi-headed rotating modes to steady rings as flow rate increases, with critical transition flow rates insensitive to equivalence ratio, gap distance, and fuel type.