M. Babayan - Mechanical Engineering Department, University of Tabriz, Tabriz, Iran
P. Tabatabaee-Hosseini - Mechanical Engineering Department, University of Tabriz, Tabriz, Iran
N. Esmaeilzadeh Kandjani - Mechanical Engineering Department, University of Tabriz, Tabriz, Iran
S. A. Tafrishi - Control Engineering Lab, Mechanical Engineering Department, Kyushu University, Fukuoka, Japan
M. Jafari - Mechanical Engineering Department, University of Tabriz, Tabriz, Iran
E. Esmaeilzadeh - Mechanical Engineering Department, University of Tabriz, Tabriz, Iran

Non-circular jet is identified as an efficient passive flow-control technique that attracts many research topics. The existence of twine-vortexes is the main reason for dissimilarity between circular and non-circular jets. Which also influences the production of droplets and satellites as well as the jet instability. This investigation presents instability analysis of liquid-gas interface as an applicable conception in free-jet flows. We experiment different jet geometries within a gas ambient in order to study their hydrodynamic behavior. These studies give an appropriate perception about contributing forces that play essential roles in fluid instability. We focus on varying viscosity and surface tension as our excitation techniques. These methods are vital to examine the key properties of non-circular jets such as breakup and decay length, axis-switching wavelength as well as produced droplets and satellites characteristics. First, instabilities of charged liquid jets are investigated by considering the interaction between electric and inertial forces. Also, the viscosity effect was studied for its interaction with the inertial and surface tension forces. In each case, liquid jet in-stability for various nozzle geometries over a specific range of jet velocity is examined. The obtained results illustrate that the geometry of nozzle has an important effect on jet instability. In addition, by increment of We number, the breakup and decay length as well as the axis-switching wavelength are raising. However, by the rise of twin-vortex number, the breakup length increases but the decay length and axis-switching wavelength decrease.

circular Free jet, Non, switching, Breakup length, Liquid, gas instability, Penetration length, Axis