In the present paper, the possibilities to cover all fluidization states by a single drag law in steady-state CFD multiphase flow modeling are evaluated. The time-averaged drag force is expressed as the product of the drag force calculated from the traditional drag laws for homogeneous conditions, and a correction function. Closure correlations for the correction function are developed by nonlinear regression modeling based on data collected from 69 transient 2D simulations of bubbling, turbulent and circulating fluidized beds. The correlations are given as functions of eight variables: the solid volume fraction, the distance from the nearest wall, the height above the air distributor, the slip velocity between the phases, the gas velocity,...
In case of large CFBs, steady state CFD simulation can be an attractive alternative for the time-con...
To improve the accuracy of simulating the heterogeneous flow in a circulating fluidized bed (CFB) do...
A novel effective drag relation for liquid-solid fluidisation is proposed, suitable for application ...
In the present paper, the possibilities to cover all fluidization states by a single drag law in ste...
In the present work, a qualitative analysis of the time-averaged gas–solid drag force in gas–solid f...
Steady state modeling based on time-averaged transport equations is a computationally efficient meth...
Computational fluid dynamic (CFD) modeling of industrial scale fluidized beds is a challenging task ...
In the current work, a numerical parametric study was performed in order to model the fluid mechanic...
The heterogeneous flow in a circulating fluidized bed (CFB) deteriorates momentum, combined with its...
In this paper, an Eulerian–Lagrangian approach, in which the gas flow is solved by the volume-averag...
In this work the influences of solid viscosity and the way to scale-down traditional drag models on ...
A new Eulerian-Eulerian multidimensional model is proposed for the study of the dynamics of dense fl...
The hydrodynamic behavior of gas–solid flow is investigated in a 2-D bubbling fluidized bed reactor ...
Drag force is a key parameter in the numerical modeling of gas-particle flow in circulating fluidize...
Modelling of gas-solid suspensions has been studied with emphasis on suitable closure laws. A study ...
In case of large CFBs, steady state CFD simulation can be an attractive alternative for the time-con...
To improve the accuracy of simulating the heterogeneous flow in a circulating fluidized bed (CFB) do...
A novel effective drag relation for liquid-solid fluidisation is proposed, suitable for application ...
In the present paper, the possibilities to cover all fluidization states by a single drag law in ste...
In the present work, a qualitative analysis of the time-averaged gas–solid drag force in gas–solid f...
Steady state modeling based on time-averaged transport equations is a computationally efficient meth...
Computational fluid dynamic (CFD) modeling of industrial scale fluidized beds is a challenging task ...
In the current work, a numerical parametric study was performed in order to model the fluid mechanic...
The heterogeneous flow in a circulating fluidized bed (CFB) deteriorates momentum, combined with its...
In this paper, an Eulerian–Lagrangian approach, in which the gas flow is solved by the volume-averag...
In this work the influences of solid viscosity and the way to scale-down traditional drag models on ...
A new Eulerian-Eulerian multidimensional model is proposed for the study of the dynamics of dense fl...
The hydrodynamic behavior of gas–solid flow is investigated in a 2-D bubbling fluidized bed reactor ...
Drag force is a key parameter in the numerical modeling of gas-particle flow in circulating fluidize...
Modelling of gas-solid suspensions has been studied with emphasis on suitable closure laws. A study ...
In case of large CFBs, steady state CFD simulation can be an attractive alternative for the time-con...
To improve the accuracy of simulating the heterogeneous flow in a circulating fluidized bed (CFB) do...
A novel effective drag relation for liquid-solid fluidisation is proposed, suitable for application ...