TY - GEN
T1 - Parametric study of pool boiling from porous graphite foams in dielectric liquids
AU - Jin, Liwen
AU - Pranoto, Indro
AU - Leong, Kai Choong
AU - Chai, John C.
PY - 2010
Y1 - 2010
N2 - An experimental investigation of pool boiling on porous graphite foams is presented in this paper. A compact thermosyphon was developed to conduct the experiments using different types of graphite foams as evaporator inserts. Two dielectric liquids viz. FC-12 and HFE-700 were used as phase change coolants to investigate the effects of pore diameter and thermal conductivity of the foams on pool boiling heat transfer. It is found that the boiling heat transfer is affected by phase change coolant types. The difference of thermophysical properties between FC-12 and HFE-7000 resulted in different boiling characteristics on porous graphite foams. The experimental results indicate that thermal conductivity and pore diameter exhibit an interrelated effect on boiling performance. The compromise of these foam properties affects the bubble departure frequency which dominates the boiling heat transfer coefficient. This study demonstrates that the designed air-cooled thermosyphon can maintain the heater surface temperature below 85°C at heat flux of 112 W/cm 2
AB - An experimental investigation of pool boiling on porous graphite foams is presented in this paper. A compact thermosyphon was developed to conduct the experiments using different types of graphite foams as evaporator inserts. Two dielectric liquids viz. FC-12 and HFE-700 were used as phase change coolants to investigate the effects of pore diameter and thermal conductivity of the foams on pool boiling heat transfer. It is found that the boiling heat transfer is affected by phase change coolant types. The difference of thermophysical properties between FC-12 and HFE-7000 resulted in different boiling characteristics on porous graphite foams. The experimental results indicate that thermal conductivity and pore diameter exhibit an interrelated effect on boiling performance. The compromise of these foam properties affects the bubble departure frequency which dominates the boiling heat transfer coefficient. This study demonstrates that the designed air-cooled thermosyphon can maintain the heater surface temperature below 85°C at heat flux of 112 W/cm 2
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U2 - 10.1109/THETA.2010.5766375
DO - 10.1109/THETA.2010.5766375
M3 - Conference contribution
AN - SCOPUS:79958019822
SN - 9781612842660
T3 - 2010 3rd International Conference on Thermal Issues in Emerging Technologies, Theory and Applications - Proceedings, ThETA3 2010
SP - 19
EP - 25
BT - 2010 3rd International Conference on Thermal Issues in Emerging Technologies, Theory and Applications - Proceedings, ThETA3 2010
T2 - 2010 3rd International Conference on Thermal Issues in Emerging Technologies, Theory and Applications, ThETA3 2010
Y2 - 19 December 2010 through 22 December 2010
ER -