In this paper, a hybrid computational technique for the Direct Numerical Simulation of hydrodynamics and (convective) mixing in complex two-phase systems is presented. The hybrid Immersed Boundary and Volume of Fluid method is based upon a single-fluid approach in combination with Henry’s law for the concentration jump. The convective species fluxes are evaluated using PLIC-based geometrical advection, which is consistent with the advection of the local fluid volume fractions. Complex geometries can be accounted for and are treated with the Immersed Boundary method. Following the verification for single phase and two-phase systems, the model was used to investigate the influence of the container geometry on the mixing of a tracer due to til...
peer reviewedThe present work presents CFD simulations of hydrodynamics, mixing and mass transfer in...
A model is presented which allows a priori computation of mass transfer coefficients for bubbles (dr...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...
In this paper, a hybrid computational technique for the Direct Numerical Simulation of hydrodynamics...
We developed a method that will enable us to determine mass transfer coefficients for a large number...
In this paper, an efficient ghost-cell based immersed boundary method is introduced to perform direc...
This paper presents a VOF-based numerical method for simulating mass transfer across deformable flui...
In this paper, an efficient ghost-cell based immersed boundary method is introduced to perform direc...
In this paper, we report the extension of an earlier developed Direct Numerical Simulation (DNS) mod...
This paper is an extension of our previous work on simulation of complex phase front evolution in th...
A computational capability based on the combined projection method for unsteady transport equations ...
Conventionally, multiple reference frame (MRF) method and sliding mesh (SM) method are used in the...
A model is presented which allows a priori computation of mass transfer coeffi-cients for bubbles (d...
peer reviewedThe present work presents CFD simulations of hydrodynamics, mixing and mass transfer in...
A model is presented which allows a priori computation of mass transfer coefficients for bubbles (dr...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...
In this paper, a hybrid computational technique for the Direct Numerical Simulation of hydrodynamics...
We developed a method that will enable us to determine mass transfer coefficients for a large number...
In this paper, an efficient ghost-cell based immersed boundary method is introduced to perform direc...
This paper presents a VOF-based numerical method for simulating mass transfer across deformable flui...
In this paper, an efficient ghost-cell based immersed boundary method is introduced to perform direc...
In this paper, we report the extension of an earlier developed Direct Numerical Simulation (DNS) mod...
This paper is an extension of our previous work on simulation of complex phase front evolution in th...
A computational capability based on the combined projection method for unsteady transport equations ...
Conventionally, multiple reference frame (MRF) method and sliding mesh (SM) method are used in the...
A model is presented which allows a priori computation of mass transfer coeffi-cients for bubbles (d...
peer reviewedThe present work presents CFD simulations of hydrodynamics, mixing and mass transfer in...
A model is presented which allows a priori computation of mass transfer coefficients for bubbles (dr...
A numerical methodology is presented for simulating 3D multiphase flows through complex geometries o...