Influence of geometric parameters on ejector acoustics and efficiency in ejector refrigeration system

IF 3.5 2区 工程技术 Q1 ENGINEERING, MECHANICAL International Journal of Refrigeration-revue Internationale Du Froid Pub Date : 2024-11-09 DOI:10.1016/j.ijrefrig.2024.11.011
Wenliang Li , Qingyang Han , Cheng Wang , Hailun Zhang , Lei Jia , Lei Wang , Wenxu Sun , Haoyuan Xue
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Abstract

Ejectors are extensively utilized in Ejector Refrigeration System (ERS), serving as essential elements for process propulsion and vapor recirculation. However, their operation produces substantial aerodynamic noise, which adversely affects the surrounding environment and human health. Consequently, an investigation was conducted into the correlation between aerodynamic noise and the ejector's performance, based on the geometric configuration of the ejector. Additionally, the flow field of the ejector was analyzed. Nine types of ejectors with different area ratios (AR) and nozzle exit positions (NXP) were established, and the simulation results showed that the aerodynamic noise was positively correlated with the turbulence intensity. The higher the turbulence intensity, the higher the sound power level of the noise. As the AR increased from 5.8 to 11.4, turbulence intensity gradually decreased. An increase in AR by 1.4 resulted in a reduction of aerodynamic noise by 2–3 dB, while the entrainment ratio (ER) initially increased and then decreased. With an increase in the primary flow pressure, the optimal AR moves backward. The change in NXP has a negligible effect on turbulence intensity and ejector noise but significantly impacts ER. Overall, 9 different AR and NXP ejectors were 3D-printed and tested. The far-field noise data of the experimental ejector exhibited the same trend as the simulated noise data, which verified the simulation results. The ejector's optimal structure was discussed based on its ability to maintain relatively higher ER and lower noise levels amid pressure fluctuations.
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几何参数对喷射器声学和喷射器制冷系统效率的影响
喷射器在喷射制冷系统(ERS)中得到广泛应用,是工艺推进和蒸汽再循环的基本要素。然而,它们的运行会产生巨大的空气动力噪音,对周围环境和人类健康造成不利影响。因此,我们根据喷射器的几何构造,对空气动力噪声与喷射器性能之间的相关性进行了调查。此外,还对喷射器的流场进行了分析。模拟结果表明,气动噪声与湍流强度呈正相关。湍流强度越高,噪声的声功率级越大。当 AR 从 5.8 增加到 11.4 时,湍流强度逐渐降低。AR 增加 1.4 后,空气动力噪声降低了 2-3 分贝,而夹带比 (ER) 则先增加后降低。随着一次流压力的增加,最佳 AR 值向后移动。NXP 的变化对湍流强度和喷射器噪音的影响可以忽略不计,但对 ER 的影响很大。总之,我们对 9 种不同的 AR 和 NXP 喷射器进行了 3D 打印和测试。实验弹射器的远场噪声数据与模拟噪声数据呈现出相同的趋势,验证了模拟结果。根据喷射器在压力波动时保持相对较高 ER 和较低噪音水平的能力,讨论了喷射器的最佳结构。
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来源期刊
CiteScore
7.30
自引率
12.80%
发文量
363
审稿时长
3.7 months
期刊介绍: The International Journal of Refrigeration is published for the International Institute of Refrigeration (IIR) by Elsevier. It is essential reading for all those wishing to keep abreast of research and industrial news in refrigeration, air conditioning and associated fields. This is particularly important in these times of rapid introduction of alternative refrigerants and the emergence of new technology. The journal has published special issues on alternative refrigerants and novel topics in the field of boiling, condensation, heat pumps, food refrigeration, carbon dioxide, ammonia, hydrocarbons, magnetic refrigeration at room temperature, sorptive cooling, phase change materials and slurries, ejector technology, compressors, and solar cooling. As well as original research papers the International Journal of Refrigeration also includes review articles, papers presented at IIR conferences, short reports and letters describing preliminary results and experimental details, and letters to the Editor on recent areas of discussion and controversy. Other features include forthcoming events, conference reports and book reviews. Papers are published in either English or French with the IIR news section in both languages.
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