ライブラリ登録: Guest

ISSN Online: 2377-424X

ISBN Print: 978-1-56700-421-2

International Heat Transfer Conference 15
August, 10-15, 2014, Kyoto, Japan

Impinging Jet Passive Control for Wall Shear Stress Enhancement

Get access (open in a dialog) DOI: 10.1615/IHTC15.ttr.009552
pages 9257-9270

要約

Heat, mass and momentum transfer induced on a wall by an impinging jet are linked to vortices organization at the jet exit, themselves influenced by jet nozzle geometry. Particle Image Velocimetry (PIV) and electrodiffusion techniques were used to investigate the characteristics of three impinging jets. Two cruciform jets, one issuing from a plane orifice nozzle (CO/P) and the second from a hemispherical orifice nozzle (CO/H), were compared to a reference round jet issuing from a convergent nozzle. The distance between the jet exit and the target wall is equal to 2 nozzle equivalent diameters (De). The Reynolds number based on De and on the exit bulk-velocity was equal to 5290 in each flow. The analysis of mean and fluctuating flow fields from PIV enables the identification of flows characteristics. The jet spreading rate and the turbulence intensities before impingement were found to be higher in the jet issuing from CO/H nozzle. The switching-over phenomena observed in CO/P nozzle jet does not occur in CO/H nozzle jet. Electrodiffusion measurements reveal some differences in the shape and the level of radial distributions of wall shear rates. Of the most important observations is the large difference between the three jets in the wall shear stress levels. For the same exit bulk-velocity, the maximum wall shear rate in CO/P and CO/H nozzle jets are almost two and three times respectively higher than the one of the reference convergent jet.