Abstract
Jet array impingement heat transfer is investigated for two phase forced convection of water at atmospheric pressure and subcooling of 7°C with flow rates up to 660mL/min. A jet array consisting of nine 1mmjets with 5mminter-jet spacing and a 2mmjet to target spacing was employed to cool a 15mmby 15mmheated surface. A linear micro-groove and a radial micro-groove surface were investigated and compared to a flat surface. The results show that the heat transfer performance of the impinging jet is insensitive to Reynolds number for fully developed boiling. A maximum heat transfer coefficient of h=230kW/m2Kwas achieved with the radial micro-groove surface, transporting a substantial heat flux of 380W/cm2. This was a 2.3-fold improvement compared with the flat surface. The linear micro-groove surface also performed well, achieving a 2-fold enhancement. Finally, the performance of the jet array impingement onto micro-grooved surfaces is compared with other recent compact water cooled two phase heat exchanger concepts from the recent literature showing comparable thermal performance.
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