Add to ORKG128-136The present study deals with pneumatic conveying of spherical particles in a six meter long horizontal channel with rectangular cross-section from a numerical perspective. Calculations are done for spherical glass beads of different sizes with a mass loading of 1.0 kg particles/kg gas. Additionally, different wall roughnesses are considered. Air volume flow rate is kept constant in order to maintain a fixed gas average velocity of 20 m/s. The numerical computations are performed by the Euler/Lagrange approach in connection with a Reynolds stress turbulence model accounting for two-way coupling and inter-particle collisions. For the calculation of the particle motion, all relevant forces (drag, slip-shear and slip-rotationa...
Gas-particle flow is encountered in a vast number of industrial operations and natural phenomena. Co...
In the present article, the predictions of two models describing turbulent gas-particle flow in a ve...
The kinetic theory of granular flow is a successful model for gas-solid flows. However, inelastic co...
The present contribution describes three-dimensional Euler=Lagrange calculations of confined horizo...
The paper presents a numerical simulation of two-phase turbulent flow in straight horizontal chan...
The behaviour of spherical solid particles in a horizontal channel flow is analysed using numerical ...
Turbulent gas-solid flows are encountered in many industrial processes including pneumatic transport...
A wide range of industrial processes involve multiphase granular flows. These include catalytic rea...
Turbulent gas-solids flow was studied in a horizontal 2-inch I.D. smooth tube. Pressure drop measure...
The research of vertical two-phase gas-solid and liquid-solid flow is generally important in chemica...
129-134This study presents further developments in Euler/Lagrange approach to calculate confined par...
The paper presents a numerical simulation of a two-phase turbulent flow in pneumatic transport throu...
This work presents a theoretical and numerical study of gas-particle two-phase flow within the Euler...
Turbulent gas-solid flows are readily encountered in many industrial and environmental processes. Th...
A numerical study into the physical characteristics of dilute gas-particle flows over a square-secti...
Gas-particle flow is encountered in a vast number of industrial operations and natural phenomena. Co...
In the present article, the predictions of two models describing turbulent gas-particle flow in a ve...
The kinetic theory of granular flow is a successful model for gas-solid flows. However, inelastic co...
The present contribution describes three-dimensional Euler=Lagrange calculations of confined horizo...
The paper presents a numerical simulation of two-phase turbulent flow in straight horizontal chan...
The behaviour of spherical solid particles in a horizontal channel flow is analysed using numerical ...
Turbulent gas-solid flows are encountered in many industrial processes including pneumatic transport...
A wide range of industrial processes involve multiphase granular flows. These include catalytic rea...
Turbulent gas-solids flow was studied in a horizontal 2-inch I.D. smooth tube. Pressure drop measure...
The research of vertical two-phase gas-solid and liquid-solid flow is generally important in chemica...
129-134This study presents further developments in Euler/Lagrange approach to calculate confined par...
The paper presents a numerical simulation of a two-phase turbulent flow in pneumatic transport throu...
This work presents a theoretical and numerical study of gas-particle two-phase flow within the Euler...
Turbulent gas-solid flows are readily encountered in many industrial and environmental processes. Th...
A numerical study into the physical characteristics of dilute gas-particle flows over a square-secti...
Gas-particle flow is encountered in a vast number of industrial operations and natural phenomena. Co...
In the present article, the predictions of two models describing turbulent gas-particle flow in a ve...
The kinetic theory of granular flow is a successful model for gas-solid flows. However, inelastic co...