• GENSMAC

• Referenced in 60 articles [sw07093]
• Navier-Stokes equations are solved by a finite difference method; the fluid surface is represented ... employed for solving the discrete Poisson equation arising from a velocity update; and an automatic ... features has been interfaced with a solid modelling routine defining the flow domain. A user...
• Alya

• Referenced in 20 articles [sw08539]
• parallel two-fluid flow solver Alya. CFD modeling of turbulent free surface flows has become ... hull is presented. The discretization is based on unstructured linear finite elements, tetrahedras and prisms ... dominated flows and allow for equal order velocity-pressure interpolations. A fixed grid method that ... Spalart Allmaras and SST $k$-${omega}$ turbulence models have been tested without showing significant differences...
• NSIKE

• Referenced in 8 articles [sw11777]
• developed. The standard k-epsilon turbulence model is implemented for turbulent flow simulation. The incompressible ... projection method. with finite element discretization. The computation of intermediate velocity and turbulence variables...
• GENSMAC3D

• Referenced in 19 articles [sw20610]
• Navier–Stokes equations are solved by a finite difference method; the fluid surface is represented ... employed for solving the discrete Poisson equation arising from a velocity update; and an automatic ... features has been interfaced with a solid modelling routine defining the flow domain. A user...
• FELSOS

• Referenced in 23 articles [sw18095]
• elaborate a unified strategy for numerical modelling of two-fluid interfacial flows, having in mind ... finite element method for spatial approximation, the operator-splitting for temporal discretization and the level ... interface representation. We show that the finite element implementation of the level-set approach brings ... standard, finite difference level-set realizations. In particular, the use of finite elements permits...
• TRISTAN

• Referenced in 6 articles [sw09664]
• architecture [3,4]: fields are discretized on a finite 3D or 2D mesh, the computational ... field is then used to advance the velocity of the particles in time ... charges and currents derived from the particles’ velocities and positions are then used as source ... calculate the electromagnetic fields. The PIC simulation model is described below, along with the details...
• THYC

• Referenced in 4 articles [sw24949]
• THYC computer code. A finite volume approach for 3 dimensional two-phase flows in tube ... knowledge of the detailed flow patterns (velocity, pressure, temperature, void fraction) on the shell side ... medium approach. This paper describes the physical model used in THYC (4 partial differential equations ... then numerical solution method (space and time discretization, solution algorithm). Examples of numerical tests...
• SeisSol

• Referenced in 1 article [sw00843]
• Finite-Element method to model seismic wave propagation using non-conforming hybrid meshes for model ... discretization and to account for highly heterogeneous material. In these new approaches we include ... same numerical approximation strategy as for the velocity-stress variables in the formulation...