Experimental Study on the Performance of a New Premixed Nozzle Shunt

Li Wenqing; Zang Runqing; Sun Zhili; Wang Hanqing

doi:10.3969/j.issn.0253-4339.2019.04.101

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Experimental Study on the Performance of a New Premixed Nozzle Shunt

更新时间：2024-07-18

- Experimental Study on the Performance of a New Premixed Nozzle Shunt
- Journal of Refrigeration Vol. 40, Issue 4, (2019)
- 作者机构：
  
  天津商业大学冷冻冷藏技术教育部工程研究中心天津市制冷技术工程中心天津市制冷技术重点实验室
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.04.101
  CLC：
- Published：2019
- 稿件说明：
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Li Wenqing, Zang Runqing, Sun Zhili, et al. Experimental Study on the Performance of a New Premixed Nozzle Shunt[J]. Journal of refrigeration, 2019, 40(4).
DOI：

Li Wenqing, Zang Runqing, Sun Zhili, et al. Experimental Study on the Performance of a New Premixed Nozzle Shunt[J]. Journal of refrigeration, 2019, 40(4). DOI： 10.3969/j.issn.0253-4339.2019.04.101.

摘要

在制冷系统中，性能系数受到多个因素的影响，冷风机的性能是重要因素之一。分流器对节流后的制冷剂等干度、等流量分配的性能直接影响冷风机的综合传热特性。本实验优化设计了一种预混喷嘴式分流器（A）并建立实验台测试分流器性能。实验采用R22制冷剂，设计工况为库温-18 ℃，分别在0、-4、-8、-12、-16、-18、-20 ℃，7种库温工况下进行实验测试。测试结果与带喷嘴式分流器（B）、气液分离式分流器（C）、CAL分流器（D）、文丘里式分流器（E）进行比较，得到分流器综合性能从大到小为：A>B>C>D>E，A的过热度、不均匀度、传热系数、制冷量均优于其他4种分流器，采用A能够减小冷风机传热温差，降低不可逆损失，提高系统性能表现。

Abstract

The performance of a refrigeration system is affected by many factors

and cooling fan is one of the important factors. The distributor directly influences the heat transfer performance of the cooling fan

such as the iso-dryness and equal-flow distribution of refrigerant. In this experiment

a new type of premixed nozzle shunt (A) is designed

and a test bench is built to test the shunt performance. Improving the efficiency of the refrigeration system and saving energy are certainly significant. An R22 refrigerant was used in the experiment

and the design condition was a cold storage temperature of ?18 ℃. Experiments were carried out at 0

?12

?16

?18

and ?20 ℃ (cold storage temperature). The test results were compared with another nozzle shunt (B)

gas–liquid separation shunt (C)

CAL shunt (D)

and Venturi shunt (E). The comprehensive performance of the shunts followed the order from good to bad

i.e.

A > B > C > D > E. The overheat

inhomogeneity

heat transfer coefficient

and cooling capacity of A were better than those of the others. Adopting the A shunt reduced the fan heat transfer temperature difference and irreversible loss and improved the system performance.

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Related Institution

Tianjin Key Lab of Refrigeration Technologies, Tianjin University of Commerce

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