Sandip Dighe scite author profile

Atomization of a smooth laminar liquid sheet produced by the oblique impingement of two liquid jets and subjected to transverse acoustic forcing in quiescent ambient is investigated. The acoustic forcing perturbs the liquid sheet perpendicular to its plane, thereby setting up a train of sinuous waves propagating radially outwards from the impingement point. These sheet undulations grow as the wave speed decreases towards the edge of the sheet and the sheet characteristics, like intact length and mean drop size, reduce drastically as compared to the natural breakup. Our observations show that the effect of the acoustic field is perceptible over a continuous range of forcing frequencies. Beyond a certain forcing frequency, called the cutoff frequency, the effect of the external acoustic field ceases. The cutoff frequency is found to be an increasing function of the Weber number. Our measurements of the characteristics of spatially amplifying sinuous waves show that the instabilities responsible for the natural sheet breakup augment in the presence of external forcing. Combining the experimental observations and measurements, we conclude that the linear theory of aerodynamic interaction (Squire’s theory) (Squire, Brit. J. Appl. Phys., vol. 4 (6), 1953, pp. 167–169) predicts the important features of this phenomenon reasonably well.

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On the nature of instabilities in externally perturbed liquid sheets

Dighe

Gadgil

2021

J. Fluid Mech.

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Effect of Transverse Acoustic Forcing on the Characteristics of Impinging Jet Atomization

Dighe¹,

Gadgil²

2019

Atomiz Spr

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Case-based learning for prediction of post-myocardial infarction outcomes

Dighe

Arunkumar²,

Gadkari³

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Sandip Dighe

Dynamics of liquid sheet breakup in the presence of acoustic excitation

Atomization of acoustically forced liquid sheets

On the nature of instabilities in externally perturbed liquid sheets

Effect of Transverse Acoustic Forcing on the Characteristics of Impinging Jet Atomization

Case-based learning for prediction of post-myocardial infarction outcomes

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