Prandtl number dependence of impingement heat transfer with circular free-surface liquid jets

An experimental study was performed to investigate the local convective heat transfer from a vertical heated surface to an obliquely impinging circular free-surface jet of transformer oil. The effect of jet inclination was examined in the range of Reynolds number between 235 and 1745 with jet angle

Abstraet--E'~perimental study was performed to characterize recovery factor and heat transfer coefficient on vertical heaters impinged by submerged circular transformer oil jets issued from both pipe and orifice nozzles. Radial distributions of local recovery factor were determined at various Reynol

Local measurements were made to determine recovery factors and heat transfer coefficients resulting from the impingement of transformer oil jets issuing from tiny slot nozzles of 0.091, 0.146, and 0.234 mm in width. This study focused on initially laminar jets in the range of jet Reynolds number bet

The objective of the present study is to understand the hydrodynamics and heat transfer of the impingement process, particularly the complexities attributable to the asymmetric geometry of an oblique liquid plane jet. The Navier-Stokes equations are solved using a finite-volume formulation with a tw