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Article Dans Une Revue Atomization and Sprays Année : 2022

Vaporization characteristics of an isolated ethanol droplet at flame conditions

Résumé

The aim of this study is to investigate single ethanol droplet evaporation characteristics under premixed CH4/air flame conditions via experimental and numerical approaches. In the experimental part of the study, ethanol droplet with an initial diameter between 20 and 70 µm was injected through a flat laminar stagnant flame. Visualization of the flame front and temporal monitoring of the droplet evaporation at high temperatures up to 2200 K were performed using planar laser tomography. Droplet motion and its diameter change are captured simultaneously via PIV/PTV and ILIDS diagnostics, respectively. Velocity measurements indicated that the droplets are small enough to be carried by surrounding gas with a very small slip velocity. Variation in droplet diameter is successfully tracked through the flame via ILIDS and it is found to be more drastic in burnt gases. Hence, vaporization rates are reported at burnt gas temperature which is affected by the heat losses from flame to the stagnation plate due to the change in the temperature profile. In the numerical part of the study, single droplet evaporation under constant temperature and stagnant environment was studied with Spalding model using YALES2 solver. The variations of the droplet properties were computed under N2 atmosphere and under flame conditions. At elevated conditions, flame temperature is found to have a more dominant effect on the evaporation rate rather than the burnt gas composition.
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Dates et versions

hal-03725375 , version 1 (17-10-2022)

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Deniz Kaya Eyice, Guillaume Renoux, Fabien Halter, Ahmet Yozgatlıgil, İskender Gökalp, et al.. Vaporization characteristics of an isolated ethanol droplet at flame conditions. Atomization and Sprays, 2022, 32 (9), pp.79-94. ⟨10.1615/AtomizSpr.2022041118⟩. ⟨hal-03725375⟩
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