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Revolutionise Your Cooling System with Boston’s Liquid Cooling Solutions

Long Term Goals and Benefits

Liquid cooling benefits

As high-performance computing grows in importance, the intense workloads of systems and workstations generate significant heat. Managing this heat effectively is crucial, as overheating can result in decreased performance or even system shutdown. Liquid cooling offers key benefits, including improved heat dissipation, reduced power consumption and greater flexibility.

Upgrade your cooling system and enjoy unparalleled efficiency and performance. Our innovative liquid cooling solutions reduce energy costs, enhance cooling capacity and extend the lifespan of your equipment. Discover the future of cooling technology today.

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Types of Liquid Cooling

 

Single-Phase DLC

Single-phase or Direct Liquid Cooling (DLC), is a method employed in high-performance computing systems to efficiently cool crucial components like the CPU, GPU and memory. This technique utilises a hydrocarbon-based liquid circulating in a closed loop, passing through cold plates directly attached to these components. The heated liquid is subsequently conveyed through tubes to a centralised cooling system, often a heat exchanger, employing air or secondary cooling loop (water) to dissipate the accumulated heat that can be dissipated or reused. In traditional DLC, the coolant remains in liquid state through the entire cooling process.

 

Two-phase DLC

Two-phase DLC represents an ultra-high-performance form of Direct Liquid Cooling. In contrast to conventional DLC, it employs a water-less dielectric fluorocarbon-based liquid with a low boiling point of approximately 40-50°C. Inside the cold plate, the liquid undergoes a state change becoming vapor as a result of the boiling process. This transformative process occurs uniformly across the cold plate's surface, enabling superior heat dissipation and eliminating hot spots. The resulting hot vapor is transported through tubes to a centralised condenser unit, which utilises air or a secondary water loop to cool and condense it back into a liquid state. The warm water within the secondary cooling loop can be either chilled or its heat reused.

 

 

Immersion Cooling

Liquid immersion entails fully submerging a server in a dielectric liquid within an immersion cooling tank. This non-conductive liquid ensures the safety of electronic components, eliminating the risk of shortcuts or oxidation. The dielectric liquid efficiently captures 100% of the heat generated by the components as it envelops the entire platform and not just the hot spots. The heat is then directed to a heat exchanger, where it undergoes cooling through a secondary air-to-liquid or liquid-to-liquid heat exchange, enabling dissipation or potential reuse of the captured heat.