本文分析了发生在空调冷凝器中的空气流动和传热过程，对于物理模型进行了合理的简化处理，充分利用了对称性边界条件和周期性边界条件。对于冷凝器的基本换热单元进行了分析计算，获得了入口风速、风压、翅片间距、翅片厚度等因素对于换热量、传热系数、气流温度、流动阻力等的影响，以曲线的形式给出了详细的计算结果，队中总结并找到强化传热的关键和突破口，为试验研究提供了基础数据和理论指导。 In this paper, the air flow and heat transfer process in the air conditioner condenser are analyzed. The physical model is simplified and the symmetry and periodic boundary conditions are fully utilized. The basic heat exchange units of the condenser were analyzed and calculated, and the influence of inlet wind speed, wind pressure, fin spacing and fin thickness on the heat transfer, heat transfer coefficient, airflow temperature and flow resistance were obtained. The detailed calculation results are given in the form. The team concludes and finds out the key points and breakthroughs for enhancing heat transfer, which provide the basic data and theoretical guidance for experimental research.