采用挡板式疏雾器收集油雾

IF 2.2 Q2 ENGINEERING, MULTIDISCIPLINARY
Kotaro Takamure , Tomomi Uchiyama , Shogo Ando , Hayato Kato , Hiroshi Nakayama
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引用次数: 0

摘要

在金属切削领域,切削油以微尺度油雾的形式散布在空气中,对工作环境产生不利影响。研制了一种用于收集悬浮在空气中的油雾的简单设备——挡板式除雾器。通过实验和数值模拟确定了在改变挡板数量和空气流入速度的情况下油雾收集速率和压力损失。实验结果表明,随着挡板数量的增加,压降增加,油雾收集率提高。还澄清了随着挡板数量的增加,可以收集更大的颗粒。数值模拟表明,大量油雾被截留在第二挡板的上游,而放置在更下游的挡板对油雾收集的贡献最小。在实验和数值模拟中,当设置六块挡板时,油雾收集效率最高。这是因为压降随着挡板数量的增加而增加,而当放置许多挡板时,薄雾收集速率几乎是恒定的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Collection of oil mist using a baffle plate-type mist trap

In the field of metal cutting, the cutting oil scatters in air as a microscale oil mist, which adversely affects the work environment. A baffle plate-type mist trap was manufactured as simple equipment for collecting oil mist floating in air. The oil mist collection rate and pressure loss were determined using experiments and numerical simulations while varying the number of baffle plates and inflow velocity of air. The experimental results showed that the pressure drop increased with the number of baffle plates, whereas the oil mist collection rate improved. It was also clarified that larger particles can be collected as the number of baffle plates increased. Numerical simulations showed that a high amount of oil mist was trapped upstream of the second baffle plate, and the baffle plate placed further downstream had minimal contribution to oil mist collection. In both the experiments and numerical simulations, the oil mist collection efficiency was the highest when six baffle plates were arranged. This is because the pressure drop increases depending on the number of baffle plates, whereas the mist collection rate is almost constant when many baffle plates are placed.

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Applications in engineering science
Applications in engineering science Mechanical Engineering
CiteScore
3.60
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0.00%
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68 days
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