Litcius/Paper detail

Experimental investigation of a data-centre cooling system using a new single-phase immersion/liquid technique

Mohamad Hnayno, Ali Chehade, Henryk Klaba, Guillaume Polidori, Chadi Maalouf

2023Case Studies in Thermal Engineering68 citationsDOIOpen Access PDF

Abstract

This paper presents an experimental investigation conducted on a new single-phase immersion/liquid-cooling technique developed at the OVHcloud laboratory, combining a direct-to-chip water-cooling system with passive single-immersion cooling technology. The experimental setup tested the impact of three dielectric fluids (S5X, SmartCoolant and ThermaSafe R), the effect of the water circuit configuration, and the server power/profile. Results suggest that the system cooling demand depends on the fluid's viscosity. As the viscosity increased from 4.6 to 9.8 mPa s, the cooling performance decreased by approximately 6%. Moreover, all the IT server profiles were validated at various water inlet temperatures and flow rates. The energy performance of the proposed technique and the liquid-cooling system previously used by OVHcloud was compared at a 600 kW data centre (DC). The proposed technique showed a reduction in the DC electrical power consumption by at least 20.7% compared to the liquid-cooling system. Finally, the cooling performance of the air- and liquid-cooled systems and the proposed solution was compared computationally at the server level. When using the proposed solution, the energy consumed per server was reduced by at least 20% compared with the air-cooling system and 7% compared with liquid-cooling system.

Topics & Concepts

Water coolingMaterials scienceComputer coolingNuclear engineeringImmersion (mathematics)Evaporative coolerEnvironmental scienceComputer scienceMechanical engineeringEngineeringThermal management of electronic devices and systemsPure mathematicsMathematicsHeat Transfer and OptimizationHeat Transfer and Boiling StudiesThermal Analysis in Power Transmission
Experimental investigation of a data-centre cooling system using a new single-phase immersion/liquid technique | Litcius