Pressure effects on the pool boiling of the fluorinated ketone C2F5C(O)CF(CF3)2

A low global warming potential dielectric fluid is under investigation for use in two-phase electronic cooling systems. The fluorinated ketone C 2 F 5 C(O)CF(CF 3 ) 2 , sufficient for either indirect cooling or direct immersion cooling, may be an environmentally friendly alternative for the cooling...

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Bibliographic Details
Main Authors: Forrest, Eric C, Lin-Wen Hu, McKrell, Thomas J, Buongiorno, Jacopo, Ostrovsky, Yakov
Format: Conference Proceeding
Language:English
Subjects:
Aluminum
CHF
dielectric fluid
Dielectrics
Electronics cooling
FK-649
fluorinated ketone
Global warming
Heat transfer
Immersion cooling
low GWP fluid
Novec
Nuclear measurements
pool boiling
Power electronics
Pressure effects
Temperature measurement
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Summary:A low global warming potential dielectric fluid is under investigation for use in two-phase electronic cooling systems. The fluorinated ketone C 2 F 5 C(O)CF(CF 3 ) 2 , sufficient for either indirect cooling or direct immersion cooling, may be an environmentally friendly alternative for the cooling of power electronics and other high power density devices. This study examines pressure effects on the pool boiling heat transfer coefficient and critical heat flux of the fluorinated ketone. Using a pressurized boiling facility, an aluminum substrate is heated by conduction with a cartridge heater. By measuring the surface temperature and surface heat flux, the nucleate boiling heat transfer coefficient and critical heat flux are obtained for the fluorinated ketone under saturated conditions at various system pressures. Results are compared to the pool boiling of tetrafluoroethane (R-134a) in the same pressurized facility. Data are fitted using the Rohsenow correlation and surface-fluids parameters for R-134a and the fluorinated ketone are determined. Data indicate that the CHF and nucleate boiling heat transfer coefficient of the fluorinated ketone may be increased with only modest increases in the system pressure.
ISSN:1087-9870
2577-0799
DOI:10.1109/ITHERM.2010.5501414