Zero-Impact Water forDry Climate Data Centers
Atmospheric water harvesting designed to cool your GPUs
Up to 40% of data center energy is spent on cooling.1
Over the next decade AI factories will grow dramatically, driving energy demands by 30x & outpacing our power supply.2 Our breakthrough tech lowers cooling energy usage by 50% by shifting data center heat rejection to low PUE adiabatic cooling.
The result: Pure distilled water from air, cooling our data centers in even the most challenging arid environments.
Unlock Adiabatic Cooling with Water From Air
Key Comparison
| Cooling Solution | Adiabatic Cooling | Mechanical Cooling |
|---|---|---|
| Energy Use | Low (primarily fans/pumps) | High - typically 5x-10x more energy use than adiabatic systems in dry climates like Mesa, AZ, depending on compressor efficiency and load conditions. |
| Water Use | Moderate to High, can be unlocked by Water From Air | Low to None |
| Climate Suitability | Extremely efficient in dry/arid climates. In humid climates, Water From Air's dry air supply can improve efficiency. | Energy-intensive in dry climates, even though it is popular in water scarce regions. |
| Maintenance | Simple (pads & water system). When using Water From Air's pure distilled water, scaling and corrosion are reduced compared to typical feedwater, minimizing required maintenance and extending pad lifespan. | Complex (controlled refrigerant & compressors) |
Learn more about adiabatic cooling and it's efficiency gains over dry mechanical cooling on this white paper:Case for Adiabatic Cooling.