Title :
Flat heat pipes thermal performance in body force environment
Author :
Zaghdoudi, Mohamed ; Tantolin, Christian ; Godet, Claude
Author_Institution :
ATHERM, Domene, France
Abstract :
This study reports on the effects of transient acceleration forces with constant input power on the thermal performance of copper/water flat heat pipe. Transient accelerations are generated using a centrifuge table to simulate acceleration forces typifying high performance aircraft maneuvering. These transients consist of three acceleration forces types: a single waveform with a peak value of 10 g with a duration of about 190 seconds, step changes with peak value of 10 g with a duration of about 300 seconds, and step changes of 1 g magnitude after thermal stabilization in the heat pipe operation. Partial depriming of the heat pipe and pooling of the working fluid are found to have an impact on the heat transport capability and transient behavior of the heat pipe. Repriming of the heat pipe under thermal load while being subjected to transient accelerations is also demonstrated
Keywords :
acceleration; avionics; cooling; heat pipes; thermal analysis; thermal management (packaging); transient analysis; Cu; Cu/water configuration; H2O; acceleration forces simulation; aircraft maneuvering; body force environment; centrifuge table; constant input power; electronic equipment packaging; flat heat pipes; heat pipe repriming; heat pipe thermal performance; heat transport capability; partial depriming; thermal load; transient acceleration forces; transient behaviour; working fluid pooling; Acceleration; Aerospace electronics; Aircraft; Electronic packaging thermal management; Electronics cooling; Heat sinks; Heat transfer; Packaging machines; Temperature; Thermal force;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronic Systems, 2000. ITHERM 2000. The Seventh Intersociety Conference on
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7803-5912-7
DOI :
10.1109/ITHERM.2000.866179
