Litcius/Paper detail

Impingement Atomization of Carbopol Gels

Aditya Saurabh, Devendra Deshmukh, Shubhankar Nath, Deepak Agarwal, K. Vivek, Lipika Kabiraj

2022AIAA Journal10 citationsDOI

Abstract

Experiments were performed on the atomization of Carbopol–water gels of compositions in the range 0.10–0.30 gellant wt.% on a like-on-like jet impingement configuration. Analysis indicates two primary modes of sheet breakup: perforation driven and wave driven. While perforation-driven breakup is not seen for the lowest gellant concentration case, 0.10 wt.%, the wave-driven breakup is present in all cases within the range of investigated jet velocities. Based on the observations, a mechanism involving feedback between the impingement point and the sheet vertex, and a separation front initiated in between the impingement point and the sheet vertex are proposed for the wave-driven breakup.

Topics & Concepts

BreakupPerforationMechanicsMaterials scienceJet (fluid)Vertex (graph theory)PhysicsOpticsComposite materialMathematicsGraphPunchingDiscrete mathematicsFluid Dynamics and Heat TransferFluid Dynamics and MixingPlant Surface Properties and Treatments