Radiation-cooled Dew Water Condensers studied by CFD - Arcofluid
Radiation-cooled Dew Water Condensers studied by CFD - Arcofluid
Radiation-cooled Dew Water Condensers studied by CFD - Arcofluid
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Comparison “Temperature gain” / “<strong>Dew</strong> gain”<br />
<strong>Radiation</strong>-<strong>cooled</strong> <strong>Dew</strong> <strong>Water</strong> <strong>Condensers</strong><br />
1 m² 30° 0.16 m 2 30 m², 30°<br />
7.32 m² 3 ridges,<br />
tilted PMMA tilted<br />
cone 255 m²<br />
planar plate planar<br />
<br />
Studied <strong>by</strong> Computational Fluid Dynamic<br />
1.00 0.65 1.05 1.40 1.15<br />
1.00 0.68 0.91 1.38 0.81<br />
(<strong>CFD</strong>)<br />
“Cooling power” or<br />
1<br />
“temperature<br />
m² 30°<br />
gain” related with Ta and 1 m² REF:<br />
T<br />
<br />
T<br />
tilted<br />
T<br />
0.16 m 2<br />
PMMA<br />
“<strong>Dew</strong> 30 m², gain” 30° 7.32 related m² to 13 m² ridges, REF<br />
tilted condenser cone water volume. 255 m²<br />
1.00 0.65 1.05 1.40 1.15<br />
cond a<br />
COND<br />
0<br />
H(<br />
mm)<br />
<br />
TRe<br />
f<br />
1.00 Ta<br />
0.68 0.91 1.38 H<br />
REF0.81<br />
H