Title of article
Suppression of instabilities in burning droplets using preferential acoustic perturbations
Author/Authors
Miglani، نويسنده , , Ankur and Basu، نويسنده , , Saptarshi and Kumar، نويسنده , , Ranganathan، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
10
From page
3181
To page
3190
Abstract
Self-induced internal boiling in burning functional droplets has been observed to induce severe bulk shape oscillations in droplets with characteristic bubble ejection events that corrugate the droplet surface. Such bubble–droplet interactions are characterized by a distinct regime of a single bubble growing inside the droplet where evaporative Darrieus–Landau instability occurs at the bubble–droplet interface. In this regime the bubble–droplet system behaves as a self-excited coupled oscillator. In this study, we report the external flame-acoustic interaction with bubbles inside the droplet resulting in controlled droplet deformation. In particular, by exciting the droplet flame in a critical, responsive frequency range (80 Hz ⩽ fP ⩽ 120 Hz) the droplet deformation cycle could be altered through suppression of these self-excited instabilities and intensity/frequency of bubble ejection events. This selective acoustic tuning also enabled the control of bubble dynamics, bulk droplet-shape distortion and the final precipitate morphology even in burning nanoparticle laden droplets.
Keywords
Interfacial instability , Nanoparticles , droplet deformation , Nanofluid fuels , Bubble ejections
Journal title
Combustion and Flame
Serial Year
2014
Journal title
Combustion and Flame
Record number
2277795
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