The impact of R50 on −100°C three-stage auto-cascade refrigeration system

Chunxia Hu, Yang Shi, X. Zhao, Guanjun Liu
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引用次数: 3

Abstract

In this paper, a -100°C three-stage auto-cascade refrigeration system is proposed and the experimental device is established. In order to determine the impact of R50 on the refrigeration cycle, the experiments are made by using mixed-refrigerants with R134a/R23/R14 and R134a/R23/R14/R50 containing the same quantity of R134a, R23 and R14 respectively in the same device. By analyzing and comparing the different effects of the two experiments, it is found that when R50 is added into the mixed-refrigerants, the evaporation temperature and the temperature after condensation at the second-stage and the third-stage partial condensers are lower, but the high pressure is increased. The higher the hige pressure is, the more power consumption is needed and more time is required to achieve the designed temperature. So it is harmful to the cycle performance of the three-stage auto-cascade refrigeration system when R50 is added into the mixed-refrigerants.
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R50对−100℃三级自串级制冷系统的影响
本文提出了一种-100℃三级自串级制冷系统,并建立了实验装置。为了确定R50对制冷循环的影响,在同一装置中分别使用含有等量R134a、R23和R14的R134a/R23/R14和R134a/R23/R14/R50混合制冷剂进行实验。通过分析比较两种实验的不同效果,发现在混合制冷剂中加入R50后,二级和三级部分冷凝器的蒸发温度和冷凝后温度降低,但高压增大。高压越高,达到设计温度所需的功耗越大,时间越长。因此,在混合制冷剂中加入R50对三级自动复叠制冷系统的循环性能是有害的。
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