Abstract
Research on the heat transfer characteristics of lithium-ion batteries is of great significance to the thermal management system of electric vehicles. The electrodes of lithium-ion batteries are composed of porous materials, and thus the heat conduction of the battery is not a standard form of diffusion. The traditional heat conduction model is not suitable for lithium-ion batteries. In this paper, a fractional heat conduction model is used to study the heat transfer properties of lithium-ion batteries. Firstly, the heat conduction model of the battery is established based on the fractional calculus theory. Then, the temperature characteristic test was carried out to collect the temperature of the battery in various operating environments. Finally, the temperature calculated by the fractional heat conduction model was compared with the measured temperature. The results show that the accuracy of fractional heat conduction model is higher than that of traditional heat conduction model. The fractional heat conduction model can well simulate the transient temperature field of the battery. The fractional heat conduction model can be used to monitor the temperature of the battery, so as to ensure the safety and stability of the battery performance.
Highlights
New energy vehicles have attracted more and more attention due to their significant advantages in energy conservation and emission reduction
The results show that the fractional heat conduction model can improve the accuracy of simulated temperature and can simulate the temperature field of the battery well
The fractional heat conduction model is of great significance to the study of heat transfer characteristics of batteries
Summary
New energy vehicles have attracted more and more attention due to their significant advantages in energy conservation and emission reduction. The electric–thermal coupling model studies the temperature distribution of the cell according to the distribution of the current density. The heat conduction in porous electrodes is not a standard thermal diffusion model. Using the fractional calculus to model the heat conduction of the battery can more accurately describe the non-standard heat diffusion characteristics of the porous electrode of the battery. The fractional heat conduction model is used to study the heat transfer properties of batteries and improve the simulation accuracy of the temperature. The fractional heat conduction model of lithium-ion batteries is established according to the thermodynamics of the battery. The fractional heat conduction model as used to simulate the transient temperature field. The fractional heat conduction model is of great significance to the study of heat transfer characteristics of batteries. The application of the fractional heat conduction model in the battery can monitor the performance of the battery in real time and ensure the safety and reliability of the battery
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