Numerical Investigation on the Performance of Cyclone Separators

Tạp chí Giáo dục Kỹ thuật Pub Date : 2023-10-28 DOI:10.54644/jte.79.2023.1441

Thanh Tinh Tran, Dang Khoa Nguyen

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Abstract

Cyclone separators are commonly employed in the solid particle separation process due to their simplicity and low-cost manufacture. Collection efficiency and pressure drop are two of the most important factors. Small-size cyclone separator has outperformed collection efficiency. However, due to its small size, it’s hard to detailed flow investigation experimentally. So, the target of this work is to perform a numerical investigation of the flow characteristics as well as the collection efficiency and pressure drop of small cyclone separators, using Ansys Fluent software. Discrete Phase Model is included to simulate the particle-flow interaction. Different values of velocity inlet and particle size are considered. Typical flow characteristics of cyclone separators with a strong vortex are revealed. Results also show that the larger particle size or the stronger inlet velocity provides higher collection efficiency. Particularly, for a typical particle diameter of 2.96 micrometers, the collection efficiency of the cyclone separator is always higher than 91% when the inlet velocity surpasses 15 m/s. All these results provide a valuable framework for the operation of cyclone separators.

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旋风分离器性能的数值研究

旋风分离器因其简单、制造成本低而被广泛应用于固体颗粒分离过程。收集效率和压降是两个最重要的因素。小型旋风分离器具有较好的收集效率。然而，由于其体积小，很难在实验上进行详细的流动研究。因此，本文的目标是利用Ansys Fluent软件对小型旋风分离器的流动特性、收集效率和压降进行数值研究。采用离散相模型来模拟颗粒流相互作用。考虑了不同的入口速度和粒度值。揭示了具有强涡的旋风分离器的典型流动特性。结果还表明，粒径越大或进口速度越快，收集效率越高。特别是对于典型粒径为2.96微米的颗粒，当进口速度超过15 m/s时，旋风分离器的收集效率始终高于91%。这些结果为旋风分离器的运行提供了一个有价值的框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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