Evaporation of a single ethanol droplet interacting with a premixed laminar CH4/air flame

Kaya, Deniz Altay; Renoux, Guillaume; Halter, Fabien; Yozgatlıgil, Ahmet; Gökalp, İskender; Chauveau, Christian

doi:10.2218/iclass.2021.5834

Cited by 2 publications

(2 citation statements)

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“…The evaporation of an isolated ethanol droplet was investigated previously under premixed methane/air flame conditions, and it is found that 50 µm diameter is high enough to cross the flame front under elevated temperatures, regardless of the gas composition [30]. Hence, the droplet passage through the flame field and its effects on the flame structure can properly be observed under the fixed conditions, reported in Table 2.…”

Section: Local Extinction Due To Droplet Passage On Stagnation Flamementioning

confidence: 96%

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Investigation of cellular instabilities and local extinction for two-phase flames under microgravity conditions

Eyice¹,

Halter²,

Yozgatlıgil³

et al. 2023

Comptes Rendus. Mécanique

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The initial mechanism of cellular instabilities on the flame surface was investigated experimentally. Firstly, mono-dispersed ethanol droplets were created via the Wilson cloud principle in a spherical combustion chamber, and aerosol ethanol/air flame propagation was tracked under microgravity conditions. Schlieren images revealed that at the beginning of the cellular structure formation, dark spots formed linking to the signal loss in a density gradient. This phenomenon is assumed to be local extinction and quenching on the flame front due to either liquid droplets' presence or evaporation. To further investigate the observed phenomenon, stagnation flame experiments were performed for rich propane/air gaseous flames with isolated ethanol droplet injection. The evidence for the local extinction on the flame surface due to droplet passage was found via the Chemiluminescence method. The intrinsic instabilities were found to be triggered by the droplets in cases where the flame cannot recover its initial state.

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Section: Local Extinction Due To Droplet Passage On Stagnation Flamementioning

confidence: 96%

“…The schematic of the stagnation burner is given in Figure 2 (a). Details of the stagnation flame burner can also be found in other studies [30], [26]. Experimental configuration is represented in Figure 2 (b).…”

Section: Ground Experiments: Stagnation Flamementioning

confidence: 99%