Experimental and computational investigation of solid particle erosion for gas-solid flows in a reducer geometry

IF 5.3 1区 工程技术 Q1 ENGINEERING, MECHANICAL Wear Pub Date : 2024-11-07 DOI:10.1016/j.wear.2024.205628
Farzin Darihaki, Siamack A. Shirazi
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Abstract

Reducers or contraction pipes are commonly used in various piping systems that involve the transport of fluids containing solid particles. Erosion experiments are performed for a reducer with air and 75 μm and 300 μm particles. Erosion visualization tests show two high erosion zones on the reducer and downstream pipe. Measurements of thickness loss provide erosion rates of a similar magnitude for these hot zones, while maximum erosion for 300 μm particles is 1.87 times the 75 μm particles. Uncertainty estimations suggest factors of 0.6–2 for the lower and upper bounds of erosion, respectively. Computational Fluid Dynamics (CFD) simulations using erosion models provide the pattern and trend of the erosion as observed in the experiments, but they provide similar maximum erosion rates for both particle sizes. The computational model indicates that the dynamic deformation of the geometry due to material removal by particle impacts has insignificant effects on the maximum erosion for test conditions under 250 h.

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变径几何中气固流动的固体颗粒侵蚀实验和计算研究
异径管或收缩管常用于输送含有固体颗粒的流体的各种管道系统中。我们对含有空气、75 μm 和 300 μm 颗粒的异径管进行了侵蚀实验。腐蚀可视化测试显示,在减速器和下游管道上有两个高腐蚀区。对厚度损失的测量结果表明,这些热区的侵蚀率大小相似,而 300 μm 颗粒的最大侵蚀率是 75 μm 颗粒的 1.87 倍。不确定性估计表明,侵蚀下限和上限的系数分别为 0.6-2。使用侵蚀模型进行的计算流体动力学(CFD)模拟提供了实验中观察到的侵蚀模式和趋势,但两种颗粒尺寸的最大侵蚀率相似。计算模型表明,在 250 小时的试验条件下,颗粒撞击造成的材料去除引起的几何体动态变形对最大侵蚀率的影响微乎其微。
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来源期刊
Wear
Wear 工程技术-材料科学:综合
CiteScore
8.80
自引率
8.00%
发文量
280
审稿时长
47 days
期刊介绍: Wear journal is dedicated to the advancement of basic and applied knowledge concerning the nature of wear of materials. Broadly, topics of interest range from development of fundamental understanding of the mechanisms of wear to innovative solutions to practical engineering problems. Authors of experimental studies are expected to comment on the repeatability of the data, and whenever possible, conduct multiple measurements under similar testing conditions. Further, Wear embraces the highest standards of professional ethics, and the detection of matching content, either in written or graphical form, from other publications by the current authors or by others, may result in rejection.
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