Numerical and Experimental Investigation of Non-Circular Free Jet with and without Peripheral Twist for Improvement in Mass Entrainment, Mixing and Turbulence Characteristics

Abstract

Free jet flow is a basic flow configuration found in wide range of applications, majority of them being mixing, heating or cooling. The present study is therefore focused to improve the performance of the free turbulent jets within its ‘developing zone’ using two different mechanisms viz. (a) use of non-circular cross section jet and (b) introduction of swirl to jet by means of peripheral twist. The present research considers experimental and computational study of circular and non-circular turbulent jets (having Reynolds number 7.2 ×104 based on jet exit diameter). A ‘jet modifier pipe’, is used for the creation of circular and non-circular jets. Essentially, jet modifier pipe is small pipe through which circular jet is gradually changed to non-circular jet. Axial center line velocity, jet spread rate, potential core length and jet velocity profiles at various downstream locations are measured both experimentally and computationally. Turbulence intensity and tangential velocities at different downstream locations of the jet are determined numerically. The comparison of local jet velocity along jet axis indicates that the deceleration of axial velocity for triangular jet is maximum while that for circular jet is minimum which is indicating maximum potential core length for circular jet. A consistent observation is also showcased by jets wherein, the potential core length for circular jet is maximum, while non-circular jets show lower core length. The peak turbulence intensity location is found closer to jet exit for triangular and rectangular jets which is an indicator of efficient mixing. Rectangular jets show saddle shape profile at downstream of the pipe exit. The rectangular jet possesses an upper hand in terms of jet performance characteristics from the point of mixing characteristics. In order to improve the mixing characteristics of non-circular jets, a peripheral twist has been provided to jet modifier pipe. The parametric analysis included study of twist rate and length of jet modifier pipe. The study indicates that, increase in twist rate of jet modifier pipe increases tangential velocity of jet, with rectangular jet outperforming square and triangular jets. The twisted jet modifier pipe length has an opposite effect wherein, the smaller the length of pipe, the higher is the tangential velocity. In nut shell the computational and experimental studies indicate that the peripheral twist introduced to non-circular free jets are far superior to the circular free jet in the mixing process.