A Simulation Study of Factors Affecting Cooling Performance of a Fan Wall-Cooled Data Center

In this paper, numerical study of airflow in high-density data center with fan wall is conducted to study the factors affecting the cooling performance of high-density data centers. The factors considered are air outlet layout, orific e plate setting, and closed cold aisle. The total heat load in the computer room is 470 kW, and the single frame is 7 kW. The results show that there is no significant difference between installing the orifice plate and not installing the orifice plate. When the porosity of the orifice plate is less than 40 %, t he airflow uniformity after the orifice plate is obviously improved, but the airflow path is greatly blocked, resulting in the inlet temperature of the middle and rear cabinets exceeding the thermal safety range. The high porosity of orifice plate has little effect on improving refrigeratio n effect. Changing the layout of the vent is a measure that has a significant impact on airflow management. The vertical cold aisle arrangement of the vent can make the airflow path more reasonable. The addition of partially closed cold aisle greatly reduces the mixing of hot and cold air, and the utilization rate of outdoor low-temperature cooling can be improved by increasing the supply air temperature, thereby reducing carbon emissions and further moving towards a low-carbon data center.