Investigation of particle motion in the impingement zone of swirling jets

The effect of swirl on heat transfer by axial and radial laminar jets impinging on a flat plate has been investigated numerically through the solution of Navier-Stokes and energy equations. Heat transfer is reduced substantially by the superposition of swirl on axial jets. Significant enhancement in

A detailed description of the flow distribution in the radial impinging-jet (RIJ) cell was attained by solving the governing Navier-Stokes equation numerically. It was shown that for tangential distances r/R < 0.25 the flow configuration in the vicinity of the solid interface approached the stagnati

This paper is a theoretical study of the effect of swirling motion of sources on the overall sound radiation from a subsonic jet. The general result for the sound field of a point acoustic stress in arbitrary motion is first applied to study the effect of uniform circular source motion on the far-fi

Particle deposition in the radial impinging-jet cell for the high coverage regime was studied theoretically and experimentally. A detailed description of the flow distribution in the cell was attained by solving the governing Navier-Stokes equation numerically. The macroscopic flow pattern was decom