Coriolis and buoyancy effects on heat transfer in viewpoint of field synergy principle and secondary flow intensity for maximization of internal cooling

Abstract: The present investigation emphases on rotation effects on internal cooling of gas turbine blades both numerically and experimentally. The primary motivation behind this work is to investigate the possibility of heat transfer enhancement by dean vortices generated by Coriolis force and U-bend with developing turbulent in the view point of the field synergy principle and secondary flow intensity analysis. A two-passage internal cooling channel model with a 180° U-turn at the hub section is used in the analysis. … Show more

Computational modelling and analysis of heat transfer enhancement in straight circular pipe with pulsating flow

Computational modelling and analysis of heat transfer enhancement in straight circular pipe with pulsating flow

Effect of Ribs Configurations on Heat Transfer Enhancement for W-Shaped Ribs in a Square Duct

Effects of wavy ribs on vortex generation and thermal-hydraulic performance in a rotating rectangular channel