Numerical study of momentum and heat transfer in unsteady impinging jets

In this paper, we propose numerical solutions for a two-dimensional pulsed plane jet in unsteady laminar regime. At the exit of the nozzle, the pulsating flow is imposed with a uniform temperature T 0 and a velocity u ¼ u 0 ð1 þ A sinðxtÞÞ. Two cases are considered: the free and the wall pulsed plan

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

## Abstract An experimental and numerical simulation study of heat transfer due to a confined impinging circular jet is presented. In this research, a stainless steel foil heated disk was used as the heat transfer surface of a simulated chip, and the thermocouples were mounted symmetrically along t

This paper focuses on the effect of nozzle arrangement on the heat transfer of multiple impinging jets. Two different geometrical arrangements with an equal number of nozzles are studied, a square set-up (3 Â 3 regularly spaced jets) and a circular set-up (eight jets surrounding a central jet). The

Experimental results are presented for characteristics of impingement heat transfer caused by three slot jets. Experimental values were obtained for the dimensionless distance H = 0.5-3, dimensionless pitch P = 6-16, and Reynolds number Re = 500-8000. For laminar impinging flow, they were compared w

Several CFD calculations have been performed in order to assess the ability of common __k‐ϵ__ turbulence models to predict heat transfer in impinging‐jet flow. One focus is on the influence of the wall on the flow, calculated either by applying a logarithmic wall function or by resolving the flow do