The present paper focuses on the issue of erosion due to fluid flow laden with nano- and microparticles. We investigated the case of a pipe elbow using theoretical analysis and numerical simulations. For the case when the particles were large, that is, of micrometre size, we observed the expected behaviour in which the erosion rate was greater with increasing particle diameter. The same was seen for flow velocity, and higher velocities promoted the erosion process. For small particles, however, the erosion rate increased with decreasing particle size. This was explained by the formation of secondary flows in the elbow that centrifuged the particles towards the walls. For very small particles, the erosion rate decreased again, i.e. the parti...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
This paper predicts the effects of variety parameters such as particles size, stream velocities and ...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
The present paper focuses on the issue of erosion due to fluid flow laden with nano- and micropartic...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
This paper addresses erosion prediction in 3-D, 90° elbow for two-phase (solid and liquid) turbulent...
AbstractThe damage of materials caused by erosion of solid particles occurs on a large scale in diff...
This paper deals with erosion prediction in a pipe with sudden contraction for the special case of t...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
We develop a mathematical model for the cumulative erosion of a micro-particle in a channel system. ...
The purpose of the present study is to simulate the continuous bend erosion process in different dir...
Present work is devoted to investigation of the slurry erosion wear in a 90° elbow by using commerci...
In order to study the erosion of a pipe wall via a liquid–solid suspension flow, a two-phase flow mo...
Fine and large particles flowing through a bend in a pipe move differently and therefore erode the p...
Classical theoretical treatments for diffusional deposition of particles in tube flow describe the l...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
This paper predicts the effects of variety parameters such as particles size, stream velocities and ...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
The present paper focuses on the issue of erosion due to fluid flow laden with nano- and micropartic...
Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction...
This paper addresses erosion prediction in 3-D, 90° elbow for two-phase (solid and liquid) turbulent...
AbstractThe damage of materials caused by erosion of solid particles occurs on a large scale in diff...
This paper deals with erosion prediction in a pipe with sudden contraction for the special case of t...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
We develop a mathematical model for the cumulative erosion of a micro-particle in a channel system. ...
The purpose of the present study is to simulate the continuous bend erosion process in different dir...
Present work is devoted to investigation of the slurry erosion wear in a 90° elbow by using commerci...
In order to study the erosion of a pipe wall via a liquid–solid suspension flow, a two-phase flow mo...
Fine and large particles flowing through a bend in a pipe move differently and therefore erode the p...
Classical theoretical treatments for diffusional deposition of particles in tube flow describe the l...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
This paper predicts the effects of variety parameters such as particles size, stream velocities and ...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...