Experimental pool boiling investigations of FC-72 on silicon with artificial cavities and integrated temperature microsensors |
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| Authors: | C Hutter DBR Kenning K Sefiane TG Karayiannis H Lin G Cummins AJ Walton |
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| Institution: | 1. Institute of Materials and Processes, School of Engineering, University of Edinburgh, King’s Buildings, Sanderson Building, Edinburgh EH9 3JL, UK;2. Institute for Integrated Micro and Nano Systems, Joint Research Institute for Integrated Systems, Scottish Microelectronics Centre, School of Engineering, University of Edinburgh, King’s Buildings, Edinburgh EH9 3JF, UK;3. School of Engineering and Design, Brunel University, Uxbridge UB8 3PH, Middlesex, UK |
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| Abstract: | In this experimental study, fluorinert FC-72 is boiled on a silicon chip with artificial cavities and integrated microsensors. The horizontal silicon chip with dimensions of 39.5 × 19 × 0.38 mm is completely immersed in FC-72. The integrated nickel–titanium temperature microsensors on the back of the chip are calibrated individually and exhibit a near-linear increase of electrical resistance with temperature. The applied heat fluxes and the resulting wall superheat at the boiling surface are varied by means of an integral thin-film resistance heater (95% Al, 4% Cu and 1% Si), also on the back of the silicon chip. Artificial cylindrical cavities with a mouth diameter of 10 μm and depths of 40, 80 or 100 μm situated above the microthermometers serve as artificial nucleation sites, due to trapped vapour. Bubble growth rates, frequencies, departure diameters of bubbles and waiting times between bubbles from an isolated cavity for different wall superheats and pressures were obtained by analysing high-speed video images and the simultaneously measured temperature below the artificial cavity. |
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