Radiation-cooled Dew Water Condensers studied by CFD - Arcofluid

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Comparison “Temperature gain” / “Dew gain” Radiation-cooled Dew Water Condensers 1 m² 30° 0.16 m 2 30 m², 30° 7.32 m² 3 ridges, tilted PMMA tilted cone 255 m² planar plate planar Studied by Computational Fluid Dynamic 1.00 0.65 1.05 1.40 1.15 1.00 0.68 0.91 1.38 0.81 (CFD) “Cooling power” or 1 “temperature m² 30° gain” related with Ta and 1 m² REF: T 0 T T cond Re f tilted T T a a 0.16 m 2 PMMA “Dew 30 m², gain” 30° 7.32 related m² to 13 m² ridges, REF tilted condenser cone water volume. 255 m² 1.00 0.65 1.05 1.40 1.15 H( mm) H H COND 1.00 0.68 0.91 1.38 0.81 REF
Comparison “Temperature gain” / “Dew gain” Radiation-cooled Dew Water Condensers 1 m² 30° 0.16 m 2 30 m², 30° 7.32 m² 3 ridges, tilted PMMA tilted cone 255 m² planar plate planar Studied by Computational Fluid Dynamic 1.00 0.65 1.05 1.40 1.15 1.00 0.68 0.91 1.38 0.81 (CFD) “Cooling power” or 1 “temperature m² 30° gain” related with Ta and 1 m² REF: T T tilted T 0.16 m 2 PMMA “Dew 30 m², gain” 30° 7.32 related m² to 13 m² ridges, REF tilted condenser cone water volume. 255 m² 1.00 0.65 1.05 1.40 1.15 cond a COND 0 H( mm) TRe f 1.00 Ta 0.68 0.91 1.38 H REF0.81 H
Page 1 and 2: Radiation-cooled Dew Water Condense
Page 3 and 4: Atmospheric vapour harvesting by ra
Page 5 and 6: Pilots, Prototypes FRANCE FRANCE Ex
Page 7 and 8: Radiative condenser as thermal mach
Page 9 and 10: Radiative budget (W/m²) Radiative
Page 11 and 12: Cone-shaped condenser simulation W
Page 13 and 14: Cone-shaped condenser prototype (Fr
Page 15 and 16: Radiative condenser as thermal mach
Page 17: Comparison “Temperature gain” /
Page 21: Radiation-cooled Dew Water Condense

Radiation-cooled Dew Water Condensers studied by CFD - Arcofluid

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