RT Journal Article ID 7dffab6f5ee8398e A1 Banker, R. A1 Belenkiy, Mikhail Ya. A1 Gotovskii, Mikhail A1 Fokin, Boris S. T1 Experimental and Computational Investigation of the Hydrodynamics and Heat Transfer in a Flat Channel of Variable Width for Smooth and Intensified Surfaces JF Heat Transfer Research JO HTR YR 2004 FD 2004-06-08 VO 35 IS 1&2 OP 10 AB We present the results of experimental and computational investigation of the resistance and heat transfer in a flat channel of variable width with converging and diverging flows at rather small convergence (divergence) angles. The results were obtained for both smooth surfaces and surfaces with intensification by dimples. It is showed experimentally that for long channels, laminarization and flow instability effects appear even at angles of 1-2°. But there is a noticeable influence only on the resistance coefficient, whereas the behavior of heat transfer is almost the same as in the absence of acceleration for both smooth and intensified surface. The numerical analysis of convective heat transfer in a narrow converging channel with a package of 15 conical dimples on one of its sides generally confirmed the data obtained in physical experiments on the advanced increase in heat transfer as compared to hydraulic resistance. Vortex-type flow synchronization effect in dimples is established. PB Begell House LK https://www.dl.begellhouse.com/journals/46784ef93dddff27,5d5eb5aa67e7721c,7dffab6f5ee8398e.html