Zero-water cooling for the AI era
Hyperscale demands are breaking traditional cooling. Our geothermal systems deliver 80%+ cooling energy reduction with zero water consumption—infrastructure built for the next 50 years of compute.
Data centers are hitting a wall
The digital infrastructure paradox: AI demands more compute, but traditional cooling can't scale.
The Water-Energy Paradox
Traditional cooling consumes millions of gallons daily while demanding massive grid capacity. As AI workloads intensify, this becomes unsustainable.
40% Parasitic Load
Conventional data centers spend up to 40% of their total energy just on cooling—energy that could power more compute.
15-20 Year Replacement Cycles
Mechanical cooling plants wear out, requiring costly replacements that disrupt operations and strain budgets.
Geothermal cooling built for hyperscale
The earth is the ultimate heat sink. We engineer systems that leverage it at data center scale.
Zero Water Consumption
Our closed-loop geothermal systems eliminate evaporative cooling entirely. No water towers, no municipal water dependency.
80%+ Cooling Energy Reduction
COP ratings of 4.5-6.0 compared to 2.8-3.2 for air-cooled systems. Dramatically lower operating costs.
PUE Below 1.2
Achieve industry-leading Power Usage Effectiveness through efficient ground-source heat rejection.
AI-Ready Architecture
Direct-to-chip (D2C) cooling compatibility for high-density AI and ML workloads up to 100kW+ per rack.
50-Year Infrastructure
Ground loops last 50+ years with minimal maintenance. No more 15-20 year replacement cycles.
Grid Independence
Reduced cooling load means smaller grid connections, faster permitting, and behind-the-meter power options.
PUE that changes the economics
Power Usage Effectiveness (PUE) measures data center efficiency. Lower is better—1.0 means all power goes to compute. Our geothermal systems dramatically outperform traditional approaches.
AI-Ready Infrastructure
Next-generation AI workloads demand 50-100kW+ per rack. Traditional cooling can't keep up. Our systems integrate with direct-to-chip cooling for the highest density deployments.
- Direct-to-chip (D2C) cooling compatible
- Liquid cooling integration
- High-density rack support (100kW+)
- Modular expansion capacity
From assessment to operation
Turnkey delivery from a single team that owns the entire project.
Site Assessment
Geological survey, thermal load analysis, and grid capacity evaluation.
System Design
Custom borefield layout, heat pump sizing, and integration engineering.
Deployment
Turnkey drilling, mechanical installation, and building integration.
Optimization
Commissioning, performance monitoring, and ongoing optimization.
Download Our Data Center Brochure
Get detailed specifications, case studies, and ROI analysis for geothermal data center cooling.
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