The Fluid–Solid Interaction, Conjugate Heat Transfer Interface
Using the Fluid–Solid Interaction, Conjugate Heat Transfer () interface, you can model phenomena where a fluid and a deformable solid affect each other at the same time as heat is transferred through and between the domains. The interface includes a predefined condition for the interaction at the fluid–solid boundaries. Arbitrary Lagrangian–Eulerian Formulation (ALE) is used for incorporating the geometrical changes of the fluid domain.
Using a stationary or a time-dependent study, the Fluid–Solid Interaction, Conjugate Heat Transfer interface models bidirectional coupling between solids and fluids. You can, however, by modifying the solver sequences also model various types of one-directional couplings.
You add this interface from the Conjugate Heat Transfer () subgroup within the Fluid–Structure Interaction () group in either the Structural Mechanics branch () or the Fluid Flow branch () of the Model Wizard or Add Physics windows. Three physics interfaces are then added to the Model Builder: Laminar Flow, Heat Transfer in Solids and Fluids, and Solid Mechanics.
In addition, the Multiphysics node is added, which automatically includes the multiphysics coupling nodes Fluid–Structure Interaction, Nonisothermal Flow, and Thermal Expansion.
At the same time, a Moving Mesh node with a Deforming Domain subnode is created under Definitions. For more information, see Deforming Fluid Domains.
On the Constituent Physics Interfaces
The Laminar Flow interface is described in The Single-Phase Flow, Laminar Flow Interface. When the CFD Module is available, turbulent flow is supported through the inclusion of a number of turbulence models.
The Solid Mechanics interface is described in The Solid Mechanics Interface.
In 2D, plane stress or plane strain assumptions can be selected in the Solid Mechanics interface. Only the plane strain (default) should be used together with an FSI coupling.
The Heat Transfer in Solids and Fluids interface is described in The Heat Transfer in Solids and Fluids Interface. A Solid feature is active by default in all domains, and a Fluid feature is added without a domain selection. All functionality for including other domain types is also available.
The Deforming Domain feature is described in the Moving Mesh Features.
Settings for Physics Interfaces and Coupling Features
When physics interfaces are added using the predefined couplings, all specific settings are included with the physics interfaces and the coupling features.
However, if physics interfaces are added one at a time, followed by the coupling features, these modified settings are not automatically included.
For example, if single Laminar Flow and Solid Mechanics interfaces are added, COMSOL Multiphysics adds an empty Multiphysics node. You can choose from the available coupling features, but the modified settings are not included.
Coupling Features
The Fluid–Structure Interaction, Nonisothermal Flow, and Thermal Expansion coupling features are used to couple the interfaces.