Computational Analysis of Erosion Wear in Various Angle Bent Pipes

被引：1

作者：

Ananya L. ^{[1
]}

Kumar Baghel Y. ^{[1
]}

Kumar Patel V. ^{[1
]}

机构：

[1] Department Of Applied Mechanics, MNNIT Prayagraj

来源：

Materials Today: Proceedings | 2023年 / 80卷

关键词：

Bent Pipe; Discrete Phase Model; Erosion Wear; Euler-Lagrangian Strategy; Multi-Phase Flow;

D O I：

10.1016/j.matpr.2022.12.123

中图分类号：

学科分类号：

摘要：

Slurry Erosion Wear is a thoughtful problem that generally occurs in many major industries which handle the Multi-Phase flows for transportation through pipeline system regularly. Because of the complex nature of Multi-Phase flows, a wide range of research is happening both experimentally and computationally to analyze the conditions at different parameters. In this study, the First numerical simulations were done on the experimental work of 900 elbow pipe geometry utilizing the Eulerian - Lagrangian strategy, two-way coupled for water and sand, Multi-Phase fluid flowing. Then standard elbow of radius ratio 1.5 of 900 as well as 450 Elbow pipe is modelled for numerical analysis. It was found that the results obtained by the DPM method were consistent with the experimental data. From the parameter analysis study, it is found that the higher velocities, concentration, and particle size effects the erosion wear greatly. Additionally, 90-degree elbow geometry is more susceptible to slurry erosion in industries, which must be addressed. © 2022

引用

页码：1150 / 1157

页数：7

共 37 条

[1]

Athulya A.S., Cherian R.M., CFD modelling of multiphase flow through T junction, Procedia Technol., 1, 24, pp. 325-331, (2016)

[2]

Nguyen V.B., Nguyen Q.B., Zhang Y.W., Lim C.Y., Khoo B.C., Effect of particle size on erosion characteristics, Wear, 15, 348, pp. 126-137, (2016)

[3]

Singh V., Kumar S., Mohapatra S.K., Modeling of erosion wear of sand water slurry flow through pipe bend using CFD, Journal of Applied Fluid Mechanics., 12, 3, pp. 679-687, (2019)

[4]

Singh J., Singh J.P., Singh M., Szala M.

[5]

Parsi M., Kara M., Agrawal M., Kesana N., Jatale A., Sharma P., Shirazi S., CFD simulation of sand particle erosion under multiphase flow conditions, Wear, 15, 376, pp. 1176-1184, (2017)

[6]

Kannojiya V., Kumar S., Kanwar M., Mohapatra S.K.

[7]

Safaei M.R., Mahian O., Garoosi F., Hooman K., Karimipour A., Kazi S.N., Gharehkhani S., Investigation of micro-and nanosized particle erosion in a 90 pipe bend using a two-phase discrete phase model, Scientific World Journal, 1, (2014)

[8]

Akilli H.U., Levy E.K., Sahin B.E., Gas–solid flow behavior in a horizontal pipe after a 90 vertical-to-horizontal elbow, Powder Technol., 116, 1, pp. 43-52, (2001)

[9]

Zouaoui S., Djebouri H., Mohammedi K., Khelladi S., Aider A.A., Experimental study on the effects of big particles physical characteristics on the hydraulic transport inside a horizontal pipe, Chin. J. Chem. Eng., 24, 2, pp. 317-322, (2016)

[10]

Singh J.P., Kumar S., Mohapatra S.K., Modelling of two phase solid-liquid flow in horizontal pipe using computational fluid dynamics technique, Int. J. Hydrogen Energy, 42, 31, pp. 20133-20137, (2017)

← 1 2 3 4 →