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Data Center POWERED BY CoolRock®

Why should you incorporate graphene in your data center?

With CoolRock's advanced heat dissipation capabilities and Kappa's superior thermal interface properties, this data center is well-equipped to handle the high temperatures and intense computing loads associated with modern data processing. The result is a more reliable, efficient, and sustainable data center operation.

  • Immersion Cooling Technology: The data center utilizes immersion cooling, a cutting-edge cooling method where the electronic components are immersed in a non-conductive liquid, providing more effective and efficient cooling compared to traditional air cooling.

  • Enhanced Heat Radiation: The graphene-coated heatsinks facilitate superior heat radiation, allowing for faster and more efficient dissipation of heat from the electronic components, leading to improved performance and reduced risk of overheating.

  • Improved Thermal Management: By adopting graphene heat dissipation coatings, the data center optimizes thermal management, ensuring that critical components operate within their specified temperature ranges, thus enhancing their reliability and longevity.

  • Energy Efficiency: The combination of graphene-coated heatsinks and immersion cooling contributes to overall energy efficiency in the data center, as the system reduces power consumption and minimizes cooling requirements compared to traditional cooling methods.

  • Extended Hardware Lifespan: The enhanced thermal management provided by graphene-coated heatsinks results in less stress on electronic components, leading to an extended lifespan for servers, SSDs, and other hardware, ultimately reducing maintenance costs.

  • High Reliability: The incorporation of graphene coatings on heatsinks improves the overall reliability of the data center infrastructure by preventing thermal-related failures and unexpected downtime.

  • Scalability and Flexibility: The data center's use of graphene-enhanced immersion cooling is a scalable and adaptable solution, allowing for expansion and adaptation to future hardware requirements.

  • Environmentally Friendly: Immersion cooling, combined with graphene's energy-efficient properties, contributes to a greener data center, reducing the overall environmental impact and carbon footprint.

  • Cutting-Edge Technology Adoption: By embracing graphene heat dissipation coatings and immersion cooling, the data center demonstrates a commitment to adopting innovative and state-of-the-art technologies to optimize data center operations and performance.

Revolutionizing Data Centers: Enhancing Immersion Cooling with Graphene Heat Dissipation Coating on Heatsinks

Source: Submer

Heatsinks offer a versatile solution to enhance convection and cooling capabilities by increasing the flow rate, generating a more turbulent or potentially unsteady flow, which might be challenging due to the viscosity of the liquids used. When comparing it to traditionally used air cooling, heatsinks allow for maximizing the flow, effectively transporting heat away from hot components and providing a continuous supply of cold liquid to cool the system, similar to the principles utilized in air cooling.

To maximize convection and boost cooling capabilities, consider using a graphene-coated heatsink designed to increase flow rate.       ☞ ☞ ☞

What sets us apart?

One of our key strengths is the exceptional thermal conductivity of graphene, which allows for efficient heat transfer and dissipation. By applying our graphene coating to these devices, we significantly enhance their thermal management capabilities. This results in improved performance, increased reliability, and extended lifespan of the equipment. This coating is specifically designed to address the challenges faced by data centers.

Additionally, our coating is specifically engineered to withstand harsh environmental conditions commonly encountered in industrial settings. It exhibits excellent durability and resistance to factors such as temperature fluctuations, moisture, dust, and vibration. This ensures long-term effectiveness and reliability in demanding operational environments.

PERFORMANCE

+20%

Faster processing speed

AMBIENT TEMPERATURE

+10°C

Wide Operating Temperature Range