Description
Development of Thermal Management Systems
Why Liquid Cooling
When individual server power consumption reaches the 250W to 400W threshold, liquid cooling deployment becomes highly practical and operationally logical. As server power consumption approaches or exceeds 400W per unit, liquid cooling transitions into an absolute infrastructural necessity.
Coolant Distribution Units CDUs
Housed within a standard 19-inch cabinet design, the CDU ensures seamless modular integration into existing data center floor plans and layouts. It delivers up to 100kW of cooling capacity within a highly compact 4U spatial dimension. The modularized control system precisely monitors, transfers, and isolates the secondary coolant loop between internal and external environments. The architecture provides unobstructed access to critical fault sensors, immediately detecting internal pipe anomalies, oil leaks, and fluid drips. The integration of top-tier industrial components ensures absolute reliability and an extended service lifecycle.
Manifolds and Connectors
The fluid manifolds are constructed from premium stainless steel to guarantee rugged industrial durability. Precision-engineered quick-connect fittings feature a no-spill design, ensuring safe, drip-free plugging and unplugging operations between the server cold plate hoses and the Coolant Distribution Unit. The system supports highly flexible input and output loop customizations, accommodating both vertical and horizontal deployment orientations.
High Efficiency Direct to Chip Liquid Cooling for Power Dense Racks
Free Cooling Chiller
- The proprietary natural cooling architecture seamlessly transitions into a free cooling mode during low ambient temperatures, achieving exceptionally low PUE metrics. Engineered to meet stringent skid container design requirements.
- The integration of a compact in-unit water module, advanced refrigerant cycle components, and unipolar isolation guarantees minimized maintenance and highly reliable operational management.
- An optional low-temperature condition unit facilitates extended free cooling operations, further optimizing the PUE ratio and overall system reliability.
- The chiller strictly utilizes environmentally sustainable R407C or R134a refrigerants.
Dry Cooler
- A high-performance heat exchanger system engineered for a minimal physical footprint.
- EC fan-driven mechanics maximize fan operational efficiency.
- Constructed with a high-corrosion resistant design, it is perfectly suited for long-term, durable outdoor applications.
- The V-shape arrangement of the finned tubes maximizes volumetric air intake and wind velocity to precisely match variable thermal load requirements.
- An optional wetted pad or integrated spray system can be deployed to pre-cool the incoming air, further amplifying total cooling efficacy.

