High-Density Computing. Engineered for Heat.
Liquid-cooled high-performance systems that convert computing energy entirely into usable heat. Scalable from 5 kW to multi-MW.
Liquid Cooling as Heat Generator.
Conventional data centres cool with air — the heat escapes into the atmosphere. P2H systems use closed water circuits: the heat from compute hardware is transferred directly to cooling water and fed into district heating networks at up to 85 °C supply temperature. Efficiency exceeds 95% — almost all electrical energy used becomes usable heat.
Technical Specifications.
- Cooling Method
- Liquid Cooling / Immersion Cooling
- Supply Temperature
- 60–85 °C
- Return Temperature
- 25–45 °C
- Modular Capacity
- 5 kW – multi-MW
- Heat Yield
- > 95% of energy input
- Energy Reuse Factor
- 10–20 %
- Deployment Time
- 4–8 weeks
- Availability (SLA)
- > 95 %
- Monitoring Sensors
- 30+
- Network Interface
- Modbus TCP / REST API
- TRL
- 6–7 (first deployment in real environment)
Real-Time Monitoring. Fully Remote.
30+ sensors capture pressure, temperature, flow rate and power consumption in real time. All systems are remotely monitorable and controllable — operation without local personnel possible. Automatic alerting on threshold breaches, escalating notification management.
From a single rack to a district supply system.
- Stufe 15–50 kWSingle Building
Rack integration into existing heating
- Stufe 2100–600 kWCommercial / Municipal Building
Heating centre with district heat feed-in
- Stufe 31–10 MWUtility Integration
Baseload-capable heat source in grid composite
- Stufe 425–100 MWLarge Project / Brownfield
Dedicated site, 100,000+ households, EU Taxonomy compliant