Nonlinear flow and heat transfer dynamics of impinging jets onto slightly-curved surfaces

The nonlinear flow and heat transfer characteristics for a slot jet impinging on a slightly curved concave surface are experimentally studied here. The effects of jet Reynolds number on the jet velocity distribution and circumferential Nusselt numbers are examined. The nozzle geometry is a rectangul

The work presents the results of numerical investigation of the flow structure and heat transfer of impact mist jet with low concentration of droplets (M L1 6 1%). The downward gas-droplets jet issued from a pipe and strikes into at a center of the circular target wall. Mathematical model is based i

The experimental investigations of heat transfer by impinging a liquid jet and a gas-liquid spray jet perpendicularly onto a flat surface were performed hereby. The aim of the investigations was to compare heat transfer coefficient values obtained with the application of the both methods of cooling.

## Abstract The flow field around a circular cylinder elastically suspended with a cantilever‐type plate spring in the jet impingement region was visualized to investigate the mechanism of the impingement heat transfer. The impingement distance __H__ was kept constant at 3 or 5 times as large as th