During the initial testing phase, the local ambient temperature was recorded at 26°C. The unit operating humidity was measured to be 46%, which was notably lower than the local humidity of 54%. This difference illustrates the effect of the heat rejection units, which heat and dry the air.
Despite the relatively low ambient temperature, the test outcomes were positive, showing that the EcoMESH system was able to achieve an average cooling reduction of approximately 4°C, with a peak of 6°C DeltaT across the mesh.
These findings highlight that even in less-than-ideal conditions for adiabatic cooling, the EcoMESH system is able to effectively enhance cooling performance, furthermore ensure a boost to energy efficiency and optimal operating conditions.
The charts below provide a visual representation of this dataset across both units tested on:
Despite the relatively low ambient temperature, the test outcomes were positive, showing that the EcoMESH system was able to achieve an average cooling reduction of approximately 4°C, with a peak of 6°C DeltaT across the mesh.
These findings highlight that even in less-than-ideal conditions for adiabatic cooling, the EcoMESH system is able to effectively enhance cooling performance, furthermore ensure a boost to energy efficiency and optimal operating conditions.
The charts below provide a visual representation of this dataset across both units tested on:
