Liquid Immersion Cooling
Revolutionizing Data Center Thermal Management
Empowering the Boundless Data Center
Refroid delivers cutting-edge immersion cooling technologies, setting new benchmarks in performance and efficiency. Our diverse range of solutions is meticulously engineered to meet the evolving demands of modern data centers, ensuring optimal thermal management and sustainability.
The Refroid Quality Assurance
we are committed to delivering unparalleled immersion cooling solutions that prioritize safety, performance, and reliability. Our comprehensive approach encompasses meticulous design, rigorous testing, and continuous monitoring to ensure that each system meets the highest industry standards.
We offer:
- Dual-hull tank structure for improved thermal insulation and safety.
- Smart cable management that is leak-resistant, removing the possibility of fluid spills.
- Complete end-to-end service equipment, such as fluid management trays and service carts, to enable effective maintenance.
- Systems for continuous monitoring that continuously record cooling parameters and fluid levels.
- Established resilience and robustness, confirmed by in-depth testing and practical implementations.
Enhanced Efficiency
Immersion cooling systems can achieve a Power Usage Effectiveness (PUE) as low as 1.02, indicating a highly efficient cooling process.
Increased Density
These systems support higher server densities, with some setups accommodating up to 100 kW per rack, compared to the 15 kW per rack typical of air-cooled systems.
Reduced Maintenance
The absence of moving parts like fans leads to fewer mechanical failures and lower maintenance costs.
Sustainability
By eliminating the need for air conditioning and reducing energy consumption, immersion cooling contributes to lower carbon footprints and aligns with green building standards.
Learn more about our approach on liquid-immersion-cooling
Liquid-Immersion-Cooling
Liquid immersion cooling is an advanced thermal management technology that involves submerging electronic components—such as servers and chips—in a non-conductive dielectric fluid to dissipate heat efficiently.
Enhanced Energy Efficiency
Reduction in energy consumption compared to traditional air cooling methods.
Increased Hardware Density
Ability to house more servers in the same physical space.
Extended Equipment Lifespan
Lower operating temperatures leading to reduced wear and tear.
Noise Reduction
Elimination of fans and air conditioning units results in quieter operations.
Environmental Benefits
Lower carbon footprint and potential for heat reuse.
