Finely resolved gas–solid flow simulations were carried out using an improved Lagrangian method known as the dense discrete phase model (DDPM). The DDPM differs from the traditional Eulerian two fluid model (TFM) approach in that the solids phase is treated as discrete parcels of particles and not as a continuum. This method of particle tracking has several important fundamental advantages over standard Eulerian multifluid approaches including the much improved grid independence behaviour and easy inclusion of particle size distributions. Similarly to the TFM, particle collisions and uncorrelated translations are not simulated directly and still need to be modelled by means of the kinetic theory of granular flows (KTGF). This work presents ...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Interphase drag coefficient is a critical input in two-fluid model (TFM) and discrete particle metho...
Eulerian models incorporating kinetic theory of granular flow (KTGF) are widely used to simulate gas...
Finely resolved gas–solid flow simulations were carried out using an improved Lagrangian method know...
Finely resolved gas–solid flow simulations were carried out using an improved Lagrangian method know...
Industrial scale bubbling fluidized bed simulations were carried out within the Kinetic Theory of Gr...
Industrial scale bubbling fluidized bed simulations were carried out within the Kinetic Theory of Gr...
The dense discrete phase model (DDPM) is a promising method for detailed simulation of fluidized bed...
The dense discrete phase model (DDPM) is a promising method for detailed simulation of fluidized bed...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Interphase drag coefficient is a critical input in two-fluid model (TFM) and discrete particle metho...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Interphase drag coefficient is a critical input in two-fluid model (TFM) and discrete particle metho...
Eulerian models incorporating kinetic theory of granular flow (KTGF) are widely used to simulate gas...
Finely resolved gas–solid flow simulations were carried out using an improved Lagrangian method know...
Finely resolved gas–solid flow simulations were carried out using an improved Lagrangian method know...
Industrial scale bubbling fluidized bed simulations were carried out within the Kinetic Theory of Gr...
Industrial scale bubbling fluidized bed simulations were carried out within the Kinetic Theory of Gr...
The dense discrete phase model (DDPM) is a promising method for detailed simulation of fluidized bed...
The dense discrete phase model (DDPM) is a promising method for detailed simulation of fluidized bed...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Interphase drag coefficient is a critical input in two-fluid model (TFM) and discrete particle metho...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Both two-fluid models embedding the kinetic theory of granular flow for particulate phase stress (TF...
Interphase drag coefficient is a critical input in two-fluid model (TFM) and discrete particle metho...
Eulerian models incorporating kinetic theory of granular flow (KTGF) are widely used to simulate gas...