考虑非稳态耦合传热的多周期电热除冰过程数值模拟研究OA
Numerical Simulation Investigation of Multi-cycle Electrothermal Deicing with Transient Conjugate Heat Transfer
电热除冰是一种可靠的飞机结冰防护手段,为正确认识多周期除冰过程中机翼内部温度变化与冰脱落过程,本文建立了一种基于水膜流动与非定常传热的耦合传热除冰数值仿真方法,对电热除冰过程进行数值模拟研究.考虑到冰层的生长与脱落对耦合传热过程的影响,建立水膜-冰层-机翼与水膜-机翼不同的耦合传热模型,最终实现了电热除冰过程的耦合计算.通过与实验数据的对比,验证了模型的准确性.通过对比多周期电热除冰过程的计算结果,发现作为热刀的常开加热区域会导致溢流水范围与结冰范围增大,下游加热区结冰量增多.结果表明该数值模拟方法在多个电热周期的除冰过程中,温度曲线的模拟结果与实验结果最大误差不超过3 K,对水膜与积冰的变化均能有效的预测.
Electrothermal deicing is recognized as a reliable method for aircraft ice protection.To systematically investigate the internal temperature variation and the ice-shedding process of the airfoil during multi-cycle deicing operations,this study establishes a coupled numerical simulation framework that integrates water film flow and transient heat transfer.The proposed model incorporates distinct conjugate heat transfer configurations for"water film/ice layer/wing"and"water film/wing"systems,explicitly accounting for the dynamic effects of ice accretionand shedding.The validity of the proposed model is verified through comparison with experimental data.Comparative analysis of the computational results from multi-cycle electrothermal deicing reveals that the continuously energized heated zone,functioning as a thermal knife,leads to an expansion in the coverage of both overflow water and ice accretion,accompanied by increased ice accretion in downstream heated zones.The results demonstrate that the proposed numerical model achieves a maximum deviation of less than 3 K in temperature profiles compared to experimental data throughout multiple electrothermal deicing cycles.Furthermore,it accurately predicts the evolution of both the runback water and ice accretion.
向冬;邱岳;朱春玲
南京航空航天大学航空学院,南京 210016南京航空航天大学航空学院,南京 210016南京航空航天大学航空学院,南京 210016||南京航空航天大学航空航天结构力学及控制全国重点实验室,南京 210016
航空航天
多周期电热除冰水膜流动耦合传热数值模拟
multi-cycle electrothermal deicingwater film flowcoupled heat transfernumerical simulation
《南京航空航天大学学报(自然科学版)》 2026 (3)
655-665,11
国家重点研发计划(2024YFB4205600).
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