An experimental and numerical study of slurry erosion behavior in a horizontal elbow and elbows in series

Erosion in elbows is one of the most important issues in pipeline flow assurance for the oil and gas and mining industries. In this study, slurry erosion in a horizontal elbow and elbows in series are numerically and experimentally investigated. The maximum erosion location of horizontal elbow is revealed by conducting slurry erosion painting experiment. The erosion process is then modeled by using computational fluid dynamics (CFD) techniques. The accuracy and stability of the CFDbased erosion model are carefully examined using experimental results. Using the validated numerical methods, the effects of particle concentration, geometry parameter, inlet conditions are investigated. The erosion processes under these different conditions are further analyzed by examining fluid flow development, particle trajectories and impact information. The results of this CFD study present some cautious guidelines for conducting erosion studies of liquid-solid flows and pipeline system designs.

Automated summary

This study investigates the slurry erosion in a horizontal elbow and elbows in series through numerical and experimental methods, modeling the erosion process using CFD techniques and examining the effects of particle concentration, geometry, and inlet conditions. The validated numerical methods provide cautious guidelines for erosion studies and pipeline system designs.