heat transfer intensification by fluidized pcm particles ... · school of chemical engineering...
TRANSCRIPT
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Heat transfer intensification by fluidized
PCM particles: air cooled condenser case
Dr Vladimir Zivkovic
School of Chemical Engineering
Newcastle University
HEXAG Meeting, May 2015, Newcastle
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Air cooled condenser
2
Dry cooling
+ No water required
- Very large equipment
The greatest resistance to heat rejection is on the air
side.
Fluidized bed heat exchangers
Enhanced heat transfer coefficient (order of magnitude)
Shallow fluidized bed condenser with PCM particles
Further enhancement due to phase change
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Heat transfer enhancement
3 dp m
250 500 750100 1000
Heat
tra
nsfe
r co
eff
icie
nt
(bed-t
o-s
urf
ace)
W/m
2 K
250
750
1250
1750
2250
2750
0
500
1000
1500
2000
2500
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Shallow fluidized bed
4
particles
particles
A.A.B. Pécora, M.R. Parise, Brazilian Journal of Chemical Engineering, 23 (2006) 497-506.