Add to ORKGMore general correlations between pressure drop and gas-solid flow variables are developed from the present experimental data. The correlation was modeled for a pneumatic conveying system in a vertical pipe. The transition boundary between dense and dilute regimes is constructed from the pressure drop correlations. The gas-solid particle flow variables are quantified by the gas Reynolds (Nref) and the solid Froude (Frp) numbers. The dense flow regime is indicated by the decrease of the pressure drop with the increase of the gas Reynolds number. In contrary, the dilute regime exhibits the increase of the pressure drop with the gas Reynolds number. The proposed correlat...
A study was conducted to determine the pressure drop gradient in a straight horizontal pipe for dens...
Theoretical modelling, design and operation of circulating and interconnected fluidized beds require...
In this work, the effects of particle size and density on the fluid dynamic behavior of vertical gas...
More general correlations between pressure drop and gas-solid flow variables are developed f...
This paper presents a steady state one-dimensional two-fluid model for gas-solid two-phase flow in a...
This article results from an ongoing investigation aimed at developing a new validated test-design p...
AbstractThe pressure drop of gas-solid flow for absorber sphere pneumatic conveying is important for...
This paper reports the effect of Reynolds number, mass loading, and particle shape and size on press...
The main objective of this investigation was to formulate a comprehensive scaling up technique for d...
An accurate estimation of the total pipeline air pressure drop is considered widely to be one of the...
Dense-phase pneumatic conveying of powders is becoming increasingly popular in various industries su...
This work is focused on dilute and dense phase pneumatic conveying of bulk solids. The motivation of...
Pneumatic transport of fine powders in fluidized dense-phase mode is becoming increasingly popular i...
The main objective of this investigation was to formulate a comprehensive scaling up technique for d...
This project was brought about by the need to improve the accuracy of predicting the pressure losses...
A study was conducted to determine the pressure drop gradient in a straight horizontal pipe for dens...
Theoretical modelling, design and operation of circulating and interconnected fluidized beds require...
In this work, the effects of particle size and density on the fluid dynamic behavior of vertical gas...
More general correlations between pressure drop and gas-solid flow variables are developed f...
This paper presents a steady state one-dimensional two-fluid model for gas-solid two-phase flow in a...
This article results from an ongoing investigation aimed at developing a new validated test-design p...
AbstractThe pressure drop of gas-solid flow for absorber sphere pneumatic conveying is important for...
This paper reports the effect of Reynolds number, mass loading, and particle shape and size on press...
The main objective of this investigation was to formulate a comprehensive scaling up technique for d...
An accurate estimation of the total pipeline air pressure drop is considered widely to be one of the...
Dense-phase pneumatic conveying of powders is becoming increasingly popular in various industries su...
This work is focused on dilute and dense phase pneumatic conveying of bulk solids. The motivation of...
Pneumatic transport of fine powders in fluidized dense-phase mode is becoming increasingly popular i...
The main objective of this investigation was to formulate a comprehensive scaling up technique for d...
This project was brought about by the need to improve the accuracy of predicting the pressure losses...
A study was conducted to determine the pressure drop gradient in a straight horizontal pipe for dens...
Theoretical modelling, design and operation of circulating and interconnected fluidized beds require...
In this work, the effects of particle size and density on the fluid dynamic behavior of vertical gas...