
Our Technology
AtmoCooling harnesses cutting-edge technology to transform arid deserts into productive, cooler microclimates.
Our system dynamically controls water droplet sizes, optimizing evaporative cooling across vast areas.
By leveraging algorithms trained on decades of weather data and real-time sensor feedback, we create scalable solutions for agriculture,
clean energy, and urban cooling without the need for fresh water.
This innovative approach offers a sustainable method to combat desertification and enhance land usability,
making AtmoCooling a pioneer in ecological and climate resilience.

The Outcome
Our algorithmically-driven cooling system dynamically controls droplet size, and is the first system to enable precise evaporation of saline waters like seawater or desalinization brine reject.
This gives the ability to create and cool the natural environment by up to 15 ℃ from 10 to 10,000 hectares in size without using any fresh water.
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These three scatter plots charts present a comparative analysis of temperatures and vapor pressure deficit (VPD) before and after the application of AtmoCooling's technology.
Across all charts, the X-axis signifies time, charting days from January 1st (0) to December 31st (364).
Chart 1, 'Natural vs Cooled Temperature,' with a Y-axis spanning 0°C to 50°C, reveals how AtmoCooling technology cools ambient air.
Markets
As the world’s agricultural lands ever-shrink due to our shifting climate, as we deploy solar in increasingly harsh environments to shift our energy mix, and as our cities continue to warm dangerously, AtmoCooling is addressing these challenges by building a climate adaptation technology.
AtmoCooling replicates and supercharges natural atmospheric cooling affordably at scale.

Agriculture
AtmoCooling boosts yield in desert agriculture by tackling the challenges of high temperatures and low humidity. Our technology offers a sustainable way to reduce irrigation costs and enhance soil conditions, leading to better crop productivity in harsh environments.
We have designed
the first-of-its-kind system from first principles
Spray System
Proprietary nozzles
generate precision droplet size
for controlled evaporation
Site Selection Tool
Algorithmic site selection
trained on 40 years of
weather data, local geography,
water access, politics & more
atmOS - Control Software
Real-time atmospheric sensors
monitoring parameters
like wind speed, direction,
temperature, humidity
Scalable Installations
The pylons, plumbing,
and earthmoving all leverage
existing technology,
construction methods
and easily adaptable
for each region
Efficient and scalable systems able to dynamically create
cool microlates at scale
around the world