中文摘要：

多管程平行流微通道冷凝器的管程设计方案对换热器管内热力性能影响较大。针对各管程工质流量可变、平均干度可变的多管程平行流冷凝器管内热力参数提出一种分程计算方法：在假设管壁温度不变及同管程内流量均匀分配的前提下，采用Koyama和Wang提出的冷凝传热模型，以及Zhang和Koyama提出的摩擦压降模型，建立了壁温与热流量之间的关系式，通过迭代求得管内平均传热系数和压降的理论值。以一个商用R134a、流程分配为12-8-8-6微通道冷凝器作为示例，用理论和实验方法分别得到了其管内冷凝平均传热系数和压降。结果表明，二者的偏差均落在30％以内。其中Koyama和Zhang提出的模型预测偏差较小，分别为-4．96％～11．31％，0．42％～25．14％。

英文摘要：

The design method of the multi-pass parallel micro-channel condenser has great effect on the in-tube thermodynamic performance. However, there exist no simple and effective methods which can predict the in-tube heat transfer coefficient and pressure drop. A stepwise calculation method for the thermodynamic parameters of the multi tube pass parallel micro-channel condenser under varying mass flux and average vapor quality of each pass was proposed. Based on the assumption that the tube wall temperature is constant and the distribution of refrigerant in each tube-pass is uniform, the heat transfer models of Koyama and Wang, the pressure drop models of Zhang and Koyama were chosen to establish the correlation between tube wall temperature and heat flux, to iteratively calculate the in-tube heat transfer coefficient and pressure drop. This investigated micro-channel condenser has a flow path arrangement of 12-8-8-6, using R134a as working medium. The in-tube heat transfer coefficient and pressure drop were both theroretically and experimentally obtained. The results demonstrat that both heat transfer coefficient and pressure drop fall within 30%. The predicted errors by both Koyama model and Zhang model are smaller, ranging from-4.96% 11.31% and 0.42% 25.14%, respectively.