Ace Sanitary’s ICE™ Series hoses are manufactured to meet the critical requirements for long term data center cooling environments. Our ICE™ Series hose is offered in a wide range of diameters and lengths to accommodate any cooling system design and maintain mechanical integrity. See our current line of Peroxide Cured EPDM, PTFE, and Silicone Hoses above and follow us on LinkedIn for the newest Data Center Cooling products.
- The ICE™ Hose provides long-term reliability through a peroxide-cured EPDM tube, which resists UV exposure, chemical attack, and extreme temperatures. Known for its stability and durability, EPDM ensures consistent coolant integrity and mechanical performance in demanding, continuous-use data center operations. ICE™ also incorporates the UL-94V-0 flame resistant cover.
- The ICE™-P Hose is engineered for the most demanding heat exchange applications, featuring a metal-free, RoHS-compliant TEFLON™ PTFE tube with a low-friction interior that ensures efficient fluid circulation. PTFE delivers excellent chemical resistance, withstanding high temperatures, oxidation, and mechanical stress while preserving the purity of glycol coolant systems. Reinforced with synthetic plies and galvanized wire helices and protected by a UL94V-0 flame-resistant cover, ICE-P is designed for durability in continuous-use environments.
- The ICE™-S Hose is designed for ultra-pure performance, built with a platinum-cured silicone tube manufactured under Good Manufacturing Practice (Reg. (CE) 2023/2006). Resistant to glycol, heat, and chemical degradation, this hose operates across a broad temperature range of -60°C to +200°C (-76°F to +392°F). With a glossy grey silicone cover that is abrasion-, ozone-, and flame-resistant, ICE-S is ideal for sensitive server environments and high-security cooling applications.
Effective Cooling Fluid Management for Data Centers Flex-Rite™ ICE™ Coolant Hoses are engineered specifically for data cooling centers, including Coolant Distribution Unit (CDU) and Secondary Fluid Networks (SFN), with proven performance in multiple hyperscale installations.