Title :
Heat transfer from micro-finned and flat surfaces to flow of Fluorinert coolant; boiling heat transfer
Author :
Mizunuma, Hitoshi ; Behnia, Masud ; Nakayama, Wataru
Author_Institution :
EDS Japan, Tokyo, Japan
Abstract :
This paper reports the data of forced convection boiling heat transfer from a 2 cm×2 cm simulated chip to a fluorocarbon coolant (FX3250) in a parallel-plate channel. The experimental parameters were the channel height (1 and 5 mm), the simulated chip surface (flat and micro-finned), and the coolant velocity (0.125-4 m/s). The effectiveness of longitudinal micro-fins (0.5 mm high×0.5 mm wide) in heat transfer enhancement was studied. The experimental results suggest that, in narrow channels, a phenomenon known as “slugging” could cause boiling crisis at low heat flux. Also, the effect of foreign gas could be diminished in narrow channels
Keywords :
boiling; channel flow; cooling; forced convection; organic compounds; surface topography; thermal analysis; thermal management (packaging); 0.125 to 4 m/s; 0.5 mm; 1 mm; 2 cm; 5 mm; FX3250 fluorocarbon coolant; Fluorinert coolant flow; boiling crisis; boiling heat transfer; channel height; coolant velocity; flat surfaces; forced convection boiling heat transfer; foreign gas effects; heat flux; heat transfer; heat transfer enhancement; longitudinal micro-fins; micro-finned surfaces; narrow channel slugging phenomenon; narrow channels; parallel-plate channel; simulated chip; simulated chip surface; Coolants; Data engineering; Electronics packaging; Fluid flow measurement; Heat engines; Heat transfer; Pulp manufacturing; Space heating; Temperature; Virtual manufacturing;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronic Systems, 1998. ITHERM '98. The Sixth Intersociety Conference on
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-4475-8
DOI :
10.1109/ITHERM.1998.689591
