Title :
A method to reduce temperature overshoots in immersion cooling of microelectronic devices
Author :
Bergles, A.E. ; Kim, C.J.
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
It is demonstrated that the generation of vapor below a heated surface is an effective means of reducing the large superheat required for inception of boiling with liquids suitable for direct-immersion cooling of microelectronic devices. In experiments with R-113 and a plain copper heat sink surface, the incipient boiling superheat was reduced from 33 K to as low as 8 K. With sintered boiling surfaces, the incipient boiling superheat was reduced from 22 K to as low as 7 K. A reasonable explanation for the effectiveness of this sparging technique is that the impacting bubbles activate temporarily dormant cavities that, in turn, activate large neighboring cavities. The technique appears to be easily adaptable to liquid incapsulated modules containing arrays of microelectronic devices such as chips
Keywords :
boiling; cooling; integrated circuit technology; packaging; 7 to 8 K; Cu heat sink surface; R-113; immersion cooling; incipient boiling superheat; liquid incapsulated modules; microelectronic devices; sintered boiling surfaces; sparging technique; temperature overshoot reduction; vapour generation; Coolants; Copper; Electronics cooling; Heat sinks; Heat transfer; Immersion cooling; Liquids; Microelectronics; Temperature; Thermal conductivity;
Conference_Titel :
Thermal Phenomena in the Fabrication and Operation of Electronic Components: I-THERM '88, InterSociety Conference on
Conference_Location :
Los Angeles, CA
DOI :
10.1109/ITHERM.1988.28688
