Experimental investigations and numerical simulations of methane cup-burner flame

Abstract: Abstract. Pulsation frequency of the cup-burner flame was determined by means of experimental investigations and numerical simulations. Simplified chemical kinetics was successfully implemented into a laminar fluid flow model applied to the complex burner geometry. Our methodical approach is based on the monitoring of flame emission, fast Fourier transformation and reproduction of measured spectral features by numerical simulations. Qualitative agreement between experimental and predicted oscillatory behaviour… Show more

“…Such design is presumed to provide steady laminar cool flames enabling to study their structure. Burner apparatus is installed in measurement section of the experimental facility suitable for optical diagnostics in laminar flames and gaseous flows [12,13]. Axis of the burner is aligned vertically to obtain symmetric shape of reaction zone at atmospheric pressure and normal gravity.…”

Experimental Apparatus and Modeling Framework for Studying Counter-Flow Laminar Flames

“…Such design is presumed to provide steady laminar cool flames enabling to study their structure. Burner apparatus is installed in measurement section of the experimental facility suitable for optical diagnostics in laminar flames and gaseous flows [12,13]. Axis of the burner is aligned vertically to obtain symmetric shape of reaction zone at atmospheric pressure and normal gravity.…”

Experimental Apparatus and Modeling Framework for Studying Counter-Flow Laminar Flames

Numerical study of the impact of the EDC formulation and finite-rate chemistry mechanisms in CFD simulations of fire plumes

On the instability of a modified cup-burner flame in the infrared spectral region