Numerical Simulation on Effect of Graphene Doped Morphology on Heat Transfer Efficiency of Anti-/deicing Component

Graphene doping can effectively improve the heat transfer capacity and anti-/deicing efficiency of anti-/deicing component. The main factors that affecting the improvement of heat transfer efficiency of graphene-doped anti-/deicing component are the graphene-doped morphology, which including the distribution and location in the composites and the size and shape of the graphene sheet. In this paper, the heat transfer characteristics of graphene-doped anti-/deicing component were studied by numerical simulation. By establishing the heat transfer mathematical model of graphene-doped anti-/deicing component, the cross-scale heat transfer numerical simulation with different graphene-doped forms was proposed to solve the temperature field distribution of graphene-doped anti-/deicing component. Finally, based on the results of temperature field calculation of graphene-doped anti-/deicing component, the effect of graphene doping morphology on the heat transfer efficiency of anti-/deicing component was studied, which were beneficial to heat transfer of anti-/deicing component. By employing the proposed cross-scale heat transfer model for graphene doping of composite materials, the heat transfer characteristics of graphene doping was qualitatively described, and it is shown that the doping of graphene can optimize the heat transfer of the composite anti-/deicing component.