CFD Module Updates
For users of the CFD Module, COMSOL Multiphysics® version 5.5 includes a new physics interface called Viscoelastic Flow, a new Compressible Euler Equations interface, and nonisothermal flow for large eddy simulations (LES). Learn about these and more CFD Module updates below.
Viscoelastic Flow
Many fluids of interest are macromolecular in nature, including polymeric melts used to make plastics, dough used in the food industry, and biological fluids like synovial fluids in joints. When subjected to deformation, these fluids exhibit both viscous and elastic behavior. Users of the CFD Module now have access to a new physics interface, Viscoelastic Flow, under the Single-Phase Flow branch, for studying flow phenomena including elastic effects. The predefined constitutive models include Oldroyd-B, Giesekus, and FENE-P. You can see this new interface in the Flow of Oldroyd-B Viscoelastic Fluid model.
Compressible Euler Equations
In many cases of high-speed flow, the dissipative effects of viscosity, as well as thermal conduction and diffusion, are confined to thin boundary layers along exterior walls and interior surfaces of immersed bodies. Neglecting these effects reduces the computational demands while often yielding good results for lift, wave drag, and over- and under-expanded nozzle conditions. The new Compressible Euler Equations interface solves the Euler equations for isentropic, compressible flow of an ideal gas. The physics interface is applicable to exterior and interior flows at transonic and supersonic speeds as encountered in high-speed aerodynamics, supersonic nozzles and ejectors, and vacuum systems.
Phase Transport Mixture Model
Most dispersed multiphase flow applications involve multiple sizes of particles, bubbles, or droplets. The new Phase Transport, Mixture Model multiphysics coupling enables you to include an arbitrary number of dispersed phases in multiphase flow simulations. Predefined multiphysics couplings between single-phase flow and phase transport interfaces have been added for laminar flow and all RANS turbulence models. You can see this new functionality in the Oil–Water Flow Through an Orifice — A Droplet Population Model.
Nonisothermal Large Eddy Simulation (LES)
The nonisothermal flow functionality has been extended to include LES, enabling detailed studies of buoyancy effects in turbulent flow, including analyses of thermal plumes and convective cooling. Predefined multiphysics couplings have been added for the three current LES models: RBVM, RBVMWV, and Smagorinsky.
Continuity and Initial Interface Pair Features
On interior boundaries across which the mesh is discontinuous, such as when two domains slide against each other, the phase-field variables can be made continuous by applying one of two new Pair features: the Continuity and Initial Interface pairs. The Initial Interface pair can, in addition to enforcing continuity of the phase-field variables, be used to smooth an initial discontinuity that may occur as a result of specifying different phases on adjacent domains.
Inelastic Non-Newtonian Constitutive Relations
Many fluids are non-Newtonian, that is, the relationship between strain and stress is nonlinear. Non-Newtonian behavior can, for example, be observed in aqueous solutions of corn starch, ketchup, blood, and paper pulp. Users of the CFD Module can now simulate two-phase flow of inelastic non-Newtonian fluids using either the Level Set or Phase Field models.
New Tutorial Models
Version 5.5 brings several new and updated tutorial models.
Unsteady 3D Flow Past a Cylinder
Application Library Title:
cylinder_flow_3d_periodic
Bimetallic Strip in Airflow
Application Library Title:
bimetallic_strip_fsi
Two-Phase Flow with Fluid-Structure Interaction
Application Library Title:
twophase_flow_fsi
Two-Phase Flow Modeling of Copper Electrowinning Using Bubbly Flow
Application Library Title:
cu_electrowinning_bubbly_flow