It is well known that when a superheated gas reaches a cold surface, the condensation starts immediately only if the wall temperature is lower than the dew temperature of the refrigerant; in this case, the heat transfer phenomenon can be also affected by the superheating temperature. This paper presents the experimental measurements of the heat transfer coefficient carried out during partial condensation of superheated R32 refrigerant in a commercial brazed plate heat exchanger prototype. The present work aims at highlighting the effects of the superheating during the partial condensation of R32 by imposing 5, 10, 15, and 25 K of vapour superheating at the inlet of the brazed plate heat exchanger prototype. The experimental measurements were carried out by varying the specific mass velocity between 15 and 40 kg m~(-2) s~(-1) and the outlet vapour quality between 0.0 and 0.65. The experimental data were collected at around 36.5 °C saturation temperature (saturation pressure of 2.27 MPa). The present data is used to validate a new step-by-step model for the calculation of the heat transfer coefficient, which accounts for the different superheating inlet temperatures.
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机译:众所周知,当过热气体到达冷表面时,仅当壁温低于制冷剂的露水温度时,冷凝才立即开始;当壁温低于制冷剂的露水温度时,冷凝立即开始。在这种情况下,传热现象也会受到过热温度的影响。本文介绍了在商用钎焊板式热交换器原型中,在过热的R32制冷剂部分冷凝期间进行的传热系数的实验测量。本工作旨在通过在钎焊板式热交换器原型的入口处施加5、10、15和25 K的蒸气过热来突出R32部分冷凝期间的过热影响。通过在15至40 kg m〜(-2)s〜(-1)之间的比质量速度和0.0至0.65的出口蒸气质量之间的变化来进行实验测量。在大约36.5°C的饱和温度(2.27 MPa的饱和压力)下收集实验数据。本数据用于验证用于计算传热系数的新的分步模型,该模型考虑了不同的过热入口温度。
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