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Enerbine Power

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Intelligent On-Site Power

Nano Turbine Technology. Hive Architecture. Built for Continuous Uptime.

enerbine Power Unit

Courtesy of Enerbine

We are committed to infrastructure that performs reliably as compute demand accelerates. By integrating Enerbine's Nano-Turbine technology within its modular Hive architecture, we deliver distributed, on-site power generation engineered for modern data centers.
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A New Approach to Power Generation

Enerbine is a compact, modular power generation platform designed to operate close to the point of consumption. Rather than relying solely on centralized grid infrastructure, Enerbine enables distributed, on-site generation that can scale alongside facility growth.

The technology is designed to be fuel-agnostic and capable of operating on natural gas today, while remaining adaptable to renewable gas or hydrogen pathways in the future. This flexibility supports a more resilient and forward-looking energy strategy.

Designed for Data Center Demands

Data centers require uninterrupted power, predictable performance, and scalable capacity. By integrating Enerbine’s Nano-Turbine technology and modular Hive architecture into our infrastructure strategy, Denison strengthens:

Power Resilience

Power Resilience

Fuel Flexibility

Fuel flexibility for future energy transitions

Scalable Generation

Scalable generation aligned with compute growth

On-site distributed power

On-site distributed power

Distributed generation brings power closer to load, reducing dependency on long transmission pathways and enhancing operational control. This approach supports mission-critical environments where reliability is non-negotiable.

Enerbine Nano Turbine Technology

At the core of the system is Enerbine’s high-speed Nano Turbine — a compact, fuel-flexible generation unit engineered for durability and continuous operation. Each Nano Turbine features a unique rotor that floats on exclusive air foil bearings, eliminating traditional mechanical contact. Operating at speeds of up to 200,000 revolutions per minute, the turbine is designed for extended performance with minimal mechanical wear. With a single moving part and advanced material engineering, the Nano Turbine platform is built to operate continuously for years without routine maintenance limitations.

Nano Turbine

Courtesy of Enerbine

Highlights

Courtesy of Enerbine

Highlights

  • Single moving part design
  • Rotor operating up to 200,000 RPM
  • Air foil bearing technology
  • Continuous operation engineering
  • Fuel Flexibility

Hive Modular Architecture

Hive Architecture

Courtesy of Enerbine

While the Nano Turbine is the core generation unit, the Hive is the architecture that organizes multiple turbines into a coordinated, scalable power system.

Each Hive clusters independent 7kW Nano Turbine cores into a self-balancing distributed generation platform.

If one core requires service or goes offline, the remaining cores automatically redistribute load — maintaining operational continuity without shutting down the entire system. The modular structure allows capacity to scale incrementally as demand grows.

Diversified Power Architecture.
Unified Performance.

Diversified Architecture

Denison's power architecture framework combines Enerbine's Hive modular Nano-Turbine system with complementary power resources to create a resilient, distributed energy architecture. This framework illustrates how primary on-site generation can integrate with stabilization, contingency, and renewable inputs to support continuous data center operations.

Serviceable by Design

Enerbine’s modular cores are designed for replacement without requiring full system shutdown.

Individual Nano Turbine modules can be removed and replaced while the broader Hive continues operating — supporting uptime objectives and minimizing infrastructure disruption.

This serviceability model is particularly valuable in mission-critical environments where continuity is paramount.

Infrastructure Built for What’s Next

As computing demand accelerates, resilient distributed generation becomes a strategic advantage.

By combining Enerbine’s Nano Turbine technology with its modular Hive architecture, Denison advances a scalable, serviceable, and uptime-focused power model built for the future of compute.

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