1 Spray cooling on micro structured surfaces Paper review.

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Presentation transcript:

1 Spray cooling on micro structured surfaces Paper review

2 Outline  Introduction  Experimental set-up and procedure  Results and discussion  Conclusion

3 Introduction  Spray cooling is a very efficient means for dissipating high heat fluxes with low coolant mass fluxes at low wall superheats.  Depending on the spray parameters and surface properties,the coolant forms a cohesive or ruptured thin liquid film,which evaporates on the hot surface.  Sprays can are generated in different ways,most frequently used are pressure and air blast atomizers.

4  Pautsch et al.found that if a pressure atomizer is used, the film thickness decreases with increasing flow rate.  Yang et al.found that for an air atomizer the coolant flow rate has only little effect on the film thickness.  Sehmbey et al.studied the effect of surface properties on the cooling heat flux using air atomized nozzles. They found that a higher surface roughness decreases the cooling performance of the spray, due to an increased film thickness.

5  Hsieh and Yao conducted experiments studying the influence of surface micro structures on silicon wavers on the spray cooling heat flux using a pressure atomizer nozzle.  Their results show an increased heat flux on structured surfaces due to capillary forces of the surface acting on the film. Smaller structures resulted in a better heat transfer. However, the improvement in heat transfer is lower than the increase in surface area.

6  Silk et al.studied the effect of cubic fins, pyramids and straight fins on the heat transfer performance up to CHF. They found that all surfaces tested improved the heat transfer performance compared to a flat surface, the straight fins performed best,followed by cubic fins and pyramids.  There is some discussion about the temperature variations encountered on a spray cooled surface. While Gu et al.found that compared to other cooling techniques, e.g., jet cooling, spray cooling results in a relatively uniform temperature distribution over the cooled surface.

7  For the present work experiments were conducted to study the effect of surface structures and coolant mass flux on the heat transfer in the low surface temperature regime at low system pressures.  Additionally, the influence of the coolant behavior on the heat transfer performance was investigated by observing the heater surface with a highspeed infrared camera and performing high resolution temperature measurements on a thin spray cooled foil heater.

8 Experimental set-up and procedure Fig. 1. Schematics of the experimental set-up.

9 Fig. 2. Copper heater embedded in the fixation system for the spray chamber.

10 Table.1. Dimensions of surface structures Fig. 3. Top view of micro structured surface (pyramids).

11 Fig. 4. Schematic of TLC heater.