Computational models for the impact velocity and impact angle in a bend have been successfully applied to the flow field and validated by electrical resistance tomography (ERT) to confirm the position of particle burdens. Particle impact parameters from this work have been used as inputs to erosion models to predict wall wastage rates in a Rc/D=1.2 bend and a upstream straight pipe section. The location of damage and the levels of wall wastage agree well with those obtained from erosion trials conducted on a full scale loop rig with AISI 304 stainless steel pipework. Well-distributed but asymmetric particulate flows of sand in water have been studied at average flow velocities of 3 m s?1. Predicted erosion damage levels and locations are co...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
In this paper, the capability of computational fluid dynamics techniques is investigated to predict ...
Erosion rates were measured along the length of a tubular flow cell of type 304 (UNS S30400) stainle...
The repair costs of erosion damage caused by solid particle impingement from transporting slurries a...
The transmission of particle-bearing liquids in pipes has motivated continuing research into erosion...
The solid particles or liquid droplets entrained by multi-phase flow in process plants can cause ero...
Sand erosion is the cause of widespread structural damage in offshore pipe systems and it is often a...
In the present study, erosion wear of a 90o pipe bend has been investigated using the Computational ...
Erosion from sand particles is a large problem in piping systems, especially in the oil and gas indu...
This paper presents a modeling and computational study on particle erosion in curved ducts. It is fo...
Major solid particle erosion may lead to potential failure of upstream oil and gas producing wells. ...
In this paper, a new concept of the one-dimensional erosion model (ODEM) is presented, validated, an...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
In order to study the erosion of a pipe wall via a liquid–solid suspension flow, a two-phase flow mo...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
In this paper, the capability of computational fluid dynamics techniques is investigated to predict ...
Erosion rates were measured along the length of a tubular flow cell of type 304 (UNS S30400) stainle...
The repair costs of erosion damage caused by solid particle impingement from transporting slurries a...
The transmission of particle-bearing liquids in pipes has motivated continuing research into erosion...
The solid particles or liquid droplets entrained by multi-phase flow in process plants can cause ero...
Sand erosion is the cause of widespread structural damage in offshore pipe systems and it is often a...
In the present study, erosion wear of a 90o pipe bend has been investigated using the Computational ...
Erosion from sand particles is a large problem in piping systems, especially in the oil and gas indu...
This paper presents a modeling and computational study on particle erosion in curved ducts. It is fo...
Major solid particle erosion may lead to potential failure of upstream oil and gas producing wells. ...
In this paper, a new concept of the one-dimensional erosion model (ODEM) is presented, validated, an...
In the present study the Euler/Lagrange approach in combination with a proper turbulence model and f...
A numerical study on the erosion of particle clusters in an abrupt pipe was conducted by means of th...
In order to study the erosion of a pipe wall via a liquid–solid suspension flow, a two-phase flow mo...
Solid particle erosion is a mechanical process that removes material by the impact of solid particle...
In this paper, the capability of computational fluid dynamics techniques is investigated to predict ...
Erosion rates were measured along the length of a tubular flow cell of type 304 (UNS S30400) stainle...