Isothermal Domain
This node should be used when the temperature shows sufficiently small spatial fluctuations to be considered homogeneous in space but not necessarily in time.
Model Input
This section contains fields and values that are inputs for expressions defining material properties. If such user-defined property groups are added, the model inputs appear here.
Temperature
This section is available when material properties are temperature-dependent. By default, the temperature of the parent interface is used and the section is not editable. To edit the Temperature field, click Make All Model Inputs Editable (). The available options are User defined (default), Common model input (the minput.T variable, set to 293.15 K by default) and all temperature variables from the physics interfaces included in the model. To edit the minput.T variable, click the Go to Source button (), and in the Default Model Inputs node under Global Definitions, set a value for the Temperature in the Expression for remaining selection section.
Isothermal Domain
Two options are available for the Temperature definition into the Isothermal Domain:
If From heat balance (default) is selected, the temperature is calculated as the solution of a reduced form of the heat equation due to spatial homogeneity. See Equation 4-54.
If From prescribed temperature is selected, the temperature is set to the domain Temperature T0 that needs to be specified. For User defined, enter a value or expression for the Temperature T0. Else, select an Ambient temperature defined in an Ambient Properties node under Definitions.
Thermodynamics
The thermodynamics properties of the Isothermal Domain are set in this section. Two options are available for the Mass definition:
If Density is selected, the Density ρ should be specified.
If Total mass is selected, the Mass m should be specified.
Finally the Heat capacity at constant pressure Cp should be specified.
It is not possible to couple an Isothermal Domain with the Laminar Flow interface through the Nonisothermal Flow multiphysics condition.
Natural Convection Cooling of a Vacuum Flask: Application Library path Heat_Transfer_Module/Tutorials,_Forced_and_Natural_Convection/vacuum_flask
Location in User Interface
Context Menus
If the Isothermal domain check box is selected under the Physical Model section:
Ribbon
Physics tab with interface as Heat Transfer in Solids and Fluids, Heat Transfer in Solids, Heat Transfer in Fluids, Heat Transfer in Porous Media, Heat Transfer in Building Materials or Bioheat Transfer selected: