Quick Connect Solutions for Data Centers

Quick Connect Solutions for Data Centers

Cooling for data centers is undergoing a huge change. The increasing demand for cloud, AI, IoT and edge applications is driving the requirement for increased cooling capacity. Liquid cooling can meet the capacity while also being more energy-efficient and cost-efficient. Investing in liquid cooling is an investment in future requirements.

There are several designs of liquid cooling systems that have proven effective. Common solutions in which liquids are used for cooling include single-phase and two-pase direct-to-chip liquid cooling and immersive cooling (also known as submerged cooling or open-bath cooling). There are also rear-door heat exchangers where the air is used for component cooling but liquids are used for air temperature management.

Regardless of the choice of liquid cooling solution, quick couplings play an important role to facilitate maintenance and for the system to be as efficient as possible.

Quick couplings with low pressure drop lowers running energy costs

Quick couplings with low pressure drop performance should be the preferred choice as this will keep the flow unrestricted and a lower system pressure for all system components, pump and cooling circuit components. This is an opportunity to down-size pump selection to reduce investment and running energy costs.

Pre-filled systems facilitate maintenance

With quick couplings, there is the option to work with prefilled systems when doing maintenance to decrease the downtime. Non-drip couplings will guarantee that there is no spill on connection or disconnection.

Quick Connect Couplings:
A Critical Component in Liquid Thermal Management Solutions

 

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Choose the Right Quick Coupling for Liquid Cooling

Choose the Right Quick Coupling for Liquid Cooling

Compare our different series of liquid cooling quick couplings for thermal control solutions to find a quick coupler that suits your needs...

FAQ - Thermal Control Technology

FAQ - Thermal Control Technology

Today our focus within the segment of thermal control is on data centers, digital transmitters, renewable energy and power electronics. But as an engineering oriented company we are open for any kind of dialogue. You are very welcome to contact us here at CEJN with your liquid challenges...

Dell ‘Triton’ technology uses non-drip couplers to cool servers

Dell ‘Triton’ technology uses non-drip couplers to cool servers

Dell ‘Triton’ technology uses non-drip couplers to cool servers...

Data server producer use modular no-spill coupling for cooling

Data server producer use modular no-spill coupling for cooling

Thermal management needs safe, easy and reliable quick connect couplings with high flow for an effective cooling process. The newly developed Non-Drip brass Series 767 High-Flow is an affordable non...

Recommended products for Data Centers

ultraFLOW Couplings & Nipples

ultraFLOW Couplings & Nipples

Power density is increasing rapidly, requiring an effective cooling solution to avoid overheating. Traditionally air has been the preferred solution, but with the fast-moving development, liquid...

Non-Drip Couplings & Nipples

Non-Drip Couplings & Nipples

In applications such as cooling of electronics, machinery and moulds, CEJN offers the Non-Drip series, a range of quick connect couplings and nipples for low-pressure fluid applications. The coupling...

DLC, DN3 Stainless steel

DLC, DN3 Stainless steel

This is an auto-coupling/blind-mate coupling with DN 3 mm (1/8"). Made in AISI 316 Stainless Steel, with specially developed NBR seals. Max working pressure 16 bar (232 PSI...

DLC, DN5 Aluminum

DLC, DN5 Aluminum

This is an auto-coupling/blind-mate coupling with DN 5 mm (3/16"). Surface treated aluminum alloy, with specially developed NBR seals. Max working pressure 10 bar (145 PSI...

Series 767, DN19 Brass

Series 767, DN19 Brass

Made of nickel-plated brass with EPDM seals. DN 19.0 mm (3/4"). Water flow capacity double shut-off Kv 13.30 (Cv 15.37). Max working pressure 20 bar (290 PSI...