A. Cavallini, Giuseppe Censi, D. Col, L. Doretti, G. Longo, L. Rossetto, C. Zilio
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引用次数: 12
摘要
对三种质量组成(28/72%,46/54%,63/37%)的高温滑动混合物R-125/236ea在管中换热器中水的冷凝过程进行了测试。测量传热系数的实验运行在饱和温度范围为40°C至60°C,质量速度范围为100至750 kg/(m2 s)。气相色谱仪用于在线浓度测量。通过将三种组分的传热性能与之前在光滑水平管内测量的两种纯组分的冷凝系数进行比较[Cavallini et al.(2000)],研究了非共沸混合物在冷凝过程中传热性能与组分的依赖关系。采用Colburn和Drew(1937)的薄膜法预测实验系数,发现它低估了传热速率,与Silver(1947)、Bell和Ghaly(1973)的平衡法相比,结果更为保守。
Analysis and Prediction of Condensation Heat Transfer of the Zeotropic Mixture R-125/236ea
The high temperature glide mixture R-125/236ea at three mass compositions (28/72%, 46/54%, 63/37%) is tested during condensation against water in a tube-in-tube heat exchanger. The experimental runs to measure the heat transfer coefficients are carried out at saturation temperature ranging from 40°C to 60°C and mass velocities ranging from 100 to 750 kg/(m2 s). A gas chromatograph is used for on-line concentration measurements. By comparing the heat transfer performances of the three compositions to the condensation coefficients previously measured for the two pure components inside a smooth horizontal tube [Cavallini et al. (2000)], the dependence of the heat transfer performance on composition during condensation for a non-azeotropic mixture is investigated.
The film method by Colburn and Drew (1937) is applied to predict the experimental coefficients and it is found to underestimate the heat transfer rate, with more conservative results as compared to the equilibrium method by Silver (1947), Bell and Ghaly (1973).
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