Add to ORKG365-376The study deals with the numerical simulation of dilute solid-fluid flow in a two-dimensional straight rotating channel using Lagrangian particle tracking method. The developing carrier-phase flow, assumed to be steady in the mean, is computed using Galerkin finite element method. A rotation-modified kƐ model is used to account for the effect of turbulence on the mean flow. One-way coupling is assumed, i.e., the carrier-phase flow affects the particle motion, but not vice-versa. Model coefficients of restitution in the normal and tangential directions are used. The particle equations of motion include drag, pressure, centrifugal, Coriolis, virtual mass, and friction (in case the particle slides along the wall) forces. Mesh refineme...
Direct numerical simulations are carried out to study the flow separation in a channel flow rotating...
Dilute solid-fluid flow over a wedge in a stationary channel is numerically solved using one-way cou...
In many engineering and industrial applications the investigation of rotating turbulent flow is of g...
In this paper the motion of particles in rotating pipe flow is studied for various flow cases by mea...
Abstract Properties of the particle velocity field are investigated using numerical simulations of g...
We investigated the rotation of non-spherical particles (rod-like and disk-like) in turbulent channe...
This project aimed to investigate the capability of the STAR CCM+ software when predicting the flow ...
The two-phase flow in a rib-roughened duct representing the internal cooling channel of a turbine b...
The behavior of spherical particles flowing down a three-dimensional chute, inclined at fixed angle,...
Particle dynamics in a channel flow are investigated using large eddy simulation and a Lagrangian pa...
The dynamics (rotation and stabilization) of single irregular particles that are constrained to rota...
AbstractThe behavior of spherical particles flowing down a three-dimensional chute, inclined at fixe...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
The dynamical behavior of tiny elongated particles in a directly simulated turbulent flow field is i...
The interaction of small heavy solid particles with turbulence near the wall of a vertical downward ...
Direct numerical simulations are carried out to study the flow separation in a channel flow rotating...
Dilute solid-fluid flow over a wedge in a stationary channel is numerically solved using one-way cou...
In many engineering and industrial applications the investigation of rotating turbulent flow is of g...
In this paper the motion of particles in rotating pipe flow is studied for various flow cases by mea...
Abstract Properties of the particle velocity field are investigated using numerical simulations of g...
We investigated the rotation of non-spherical particles (rod-like and disk-like) in turbulent channe...
This project aimed to investigate the capability of the STAR CCM+ software when predicting the flow ...
The two-phase flow in a rib-roughened duct representing the internal cooling channel of a turbine b...
The behavior of spherical particles flowing down a three-dimensional chute, inclined at fixed angle,...
Particle dynamics in a channel flow are investigated using large eddy simulation and a Lagrangian pa...
The dynamics (rotation and stabilization) of single irregular particles that are constrained to rota...
AbstractThe behavior of spherical particles flowing down a three-dimensional chute, inclined at fixe...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
The dynamical behavior of tiny elongated particles in a directly simulated turbulent flow field is i...
The interaction of small heavy solid particles with turbulence near the wall of a vertical downward ...
Direct numerical simulations are carried out to study the flow separation in a channel flow rotating...
Dilute solid-fluid flow over a wedge in a stationary channel is numerically solved using one-way cou...
In many engineering and industrial applications the investigation of rotating turbulent flow is of g...