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Simulation on the performance and cooling capacity compensation solution of a loop thermosyphon system under fan failure conditions

Sikai Zou, Quan Zhang, Chang Yue

2024Case Studies in Thermal Engineering10 citationsDOIOpen Access PDF

Abstract

Fan failure of loop thermosyphon systems (LTS) is a major factor affecting thermal safety of data centers. This paper develops a distributed-parameter model to accurately predict the overall and local heat transfer performance of a loop thermosyphon (the terminal equipment of LTS) under fan failure conditions. The simulation results show that the positions of faulty fans have a significant influence on the evaporator's local airside heat transfer coefficient, but have slight influences on the evaporator's local refrigerant heat transfer coefficient and the condenser's overall heat transfer coefficient, which would not increase the risk of heat transfer performance. Thus, fan airflow rate backup can be used to handle fan failure. Then, the effect of operating parameters including backup airflow rate (Bfan), cold water temperature (Tcw) and increment of cold water flow rate (Im,cw) on the effectiveness and efficiency of the cooling capacity compensation under fan failure conditions is analyzed by using the Taguchi method with an L16 orthogonal array. The Bfan is the primary factor contributing 81.51% on cooling capacity compensation, with Tcw and Im,cw contributing 15.25% and 2.38%, respectively. Considering the energy efficiency, the order of adjustment should be Bfan first, Im,cw second, and Tcw last when fan failure occurs.

Topics & Concepts

Condenser (optics)EvaporatorHeat transfer coefficientEnvironmental scienceThermosiphonHeat transferAirflowThermal expansion valveCoefficient of performanceThermodynamicsWater coolingMechanicsMaterials scienceRefrigerantNuclear engineeringEngineeringHeat exchangerPhysicsOpticsLight sourceHeat Transfer and Boiling StudiesHeat Transfer and OptimizationHeat Transfer Mechanisms
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