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Experimental Investigation of a Battery Thermal Management Device Based on a Composite Phase Change Material Coupled with a Double Helix Liquid Cooling Plate

Yongsheng Yu, Aikun Tang, Wenchao Chen, Hekun Jia, Yi Jin

2022Energy & Fuels21 citationsDOI

Abstract

Phase change materials (PCMs) are considered the most promising cooling technology due to their high latent heat, good reversibility, and low cost. However, in practical applications, PCMs encounter problems such as a sharp temperature increase after full melting and low thermal conductivity. To solve these problems, a new double helix-type liquid cooling plate is developed and coupled with a hydrated salt composite PCM (CPCM) for battery pack cooling. The modified CPCM has a high latent heat (249 J/g), suitable phase change temperature (35 °C), improved thermal conductivity to 1.86 W/(m·K), and reduced subcooling to 1.9 °C. The design of the liquid cooling plate structure can make the average water temperature on both sides of each cell approximate, thereby ensuring the temperature uniformity for the battery pack. A battery module system test rig is constructed and the heat dissipation effect for the battery module is compared with four cooling methods. The results reveal that the CPCM/liquid coupled cooling method is the most effective for cooling the battery pack. At a low coolant flow rate of 0.5 L/min, the maximum temperature difference for the coupled battery module is retained at 1.88 °C, and the average temperature is found to increase by only 9.6 °C. In addition, different coolant flow rates and control strategies of the coupled heat sink system are tested and compared. An optimal strategy is selected for the cyclic charge/discharge test of the coupled cooling module. The system is found to maintain good cooling performance and temperature uniformity after four charge/discharge cycles, and the highest temperature peak for the battery pack is only 40.3 °C, which is within the normal operating temperature range.

Topics & Concepts

Materials sciencePhase-change materialComputer coolingBattery packCoolantBattery (electricity)Heat sinkLatent heatThermal conductivityWater coolingThermodynamicsCooling capacityAir coolingNuclear engineeringThermalComposite materialThermal management of electronic devices and systemsMechanical engineeringPhysicsEngineeringPower (physics)Advanced Battery Technologies ResearchPhase Change Materials ResearchAdvanced battery technologies research