Effect of three-orifice baffles orientation on the flow and thermal-hydraulic performance: experimental analysis for net and oscillatory flows
Abstract
Three-orifice baffles equally spaced along a circular tube are investigated as a means for heat transfer enhancement under net, oscillatory and compound flows. An unprecedented, systematic analysis of the relative orientation of consecutive baffles -- aligned or opposed -- is accomplished to assess the changes induced on the flow structure and their impact on the thermal-hydraulic performance. The results cover the Nusselt number, the net and oscillatory friction factors and the instantaneous velocity fields using PIV in an experimental campaign with a 32 mm tube diameter. The study is conducted in the range of net Reynolds numbers 50 < Ren < 1000 and oscillatory Reynolds numbers 0 < Reosc< 750, for a dimensionless amplitude x0/D = 0.5 and Pr=65. In absence of oscillatory flow, opposed baffles advance the transition to turbulence from Ren = 100 to 50, increasing the net friction factor (40 %) for Ren > 50 and the Nusselt number (maximum of 27 %) for Ren < 150. When an oscillatory flow is applied, augmentations caused by opposed baffles are only observed for Ren < 150 and Reosc < 150. Above Ren, Reosc>150, opposed baffles are not recommended for the promotion of heat transfer, owing to friction penalties. However, the chaotic mixing and lack of short-circuiting between baffles observed with flow velocimetry over a wide range of operational conditions point out the interest of this configuration to achieve plug flow.
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