Three dimensional coupled fluid-droplet model For atmospheric pressure plasmas
Iqbal, Muhammad MunawarORCID: 0000-0002-8579-4828 and Turner, Miles M.ORCID: 0000-0001-9713-6198
(2015)
Three dimensional coupled fluid-droplet model For atmospheric pressure plasmas.
Plasma Processes and Polymers, 12
(10).
pp. 1104-1116.
ISSN 1612-8850
A three-dimensional coupled fluid-droplet model is developed specifically to characterize the significance of droplet-plasma interaction at atmospheric pressure. The liquid droplet introduces a perturbation in atmospheric pressure plasmas (APP) and under many conditions, the behavior of this perturbation is not clear in APP. In this study, we identify the importance of ionization mechanism for the vaporization of droplets during the interaction. The affect and spatial expansion of vaporization in discharge plasma depend on the flow rate of liquid precursors. Penning ionization is recognized as the leading process along the pulse of evaporating droplets as compared to other ionization processes that explain the relevance of small nitrogen impurities. The influence of different precursors, such as Hexamethyldisiloxane, Tetraethyl orthosilicate and water in an APP is described by contrasting the implication of evaporation process along the pulse of droplets. We validate the numerical simulation by comparison with the experimental observations of droplet size distributions using a laser diffraction particle size analysis technique as a part of atmospheric pressure plasma jet deposition system
Item Type:
Article (Published)
Refereed:
Yes
Uncontrolled Keywords:
atmospheric pressure discharges; dielectric barrier discharge; filamentation and Helium; nitrogen gas mixture; three-dimensional modeling; uniformity