Experimental investigation of nozzle shape effect on wall shear stress beneath impinging round jet

In this study, we have recalled the derivation of wall shear stress, temporal gradient of wall shear stress and peak velocity, for a Poiseuille and subsequently Womersley modeling

2. 2D Numerical simulations of a hot film sensor We first briefly outline some 2D complete numerical simulations in order to point at the effect of the conduction into the substrate

In the present work, with a plate at short distance to the burner outlet (H/d=0,5) and a low Reynolds number value (Re= 1500), it has been found that the Nusselt number

Mass transfer in the impinging region was calculated from the measured wall shear rates for a Reynolds number around 5500 and over a range of streamwise

As it was emphasized for the wall shear rate, the second peak in Sh distribution in the MP of DO/H nozzle jet corresponds to the imprint on the wall of the inner shear layer present

that are the minor-obstructions of the class of 1-apex sub-unicyclic graphs, i.e., the set of all minor minimal graphs that do not belong in this class.. For bigger values of k, we

The novelty of the work lies in using smart meter data (active power at a 10 seconds sampling rate) already used in a commercial application in the Netherlands and in proposing a

Muhammad Zahid, Marine Turek, Fei Xiao, Viet Loan Dao Thi, Maryse Guérin, Isabel Fofana, Philippe Bachellier, John Thompson, Leen Delang,. Johan Neyts,