Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/75143
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Type: Journal article
Title: Dissipative particle dynamics simulations of liquid nanojet breakup
Author: Tiwari, A.
Abraham, J.
Citation: Microfluidics and Nanofluidics, 2008; 4(3):227-235
Publisher: Springer
Issue Date: 2008
ISSN: 1613-4982
1613-4990
Statement of
Responsibility: 
Anupam Tiwari, John Abraham
Abstract: In this work, we use a dissipative-particle-dynamics (DPD)-based two-phase model to study the breakup of liquid nanojets. We show that the breakup of nanojets is accelerated by the presence of thermal fluctuations. Satellite drops, which are undesirable from an application viewpoint, are not observed in our simulations. We find that the presence of a repulsive wall enclosing the DPD liquid is necessary to prevent clogging of nanojets. We are able to recover the time evolution of minimum jet radius as given by prior theoretical analysis. This study shows that DPD is able to capture the thermal induced breakup phenomena at the sub-micron level. The coarse-grained nature of DPD along with its flexibility to allow for the modeling of complex fluids in combination with the results from this study show that DPD is a useful tool for sub-micron fluid flow simulations.
Keywords: Dissipative particle dynamics; Nanojets; Two-phase flows; Particle-based methods
Rights: © Springer-Verlag 2007
RMID: 0020123389
DOI: 10.1007/s10404-007-0166-3
Appears in Collections:Mechanical Engineering publications

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