FEM: EquationHeat

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FEM EquationHeat

Menu location
Solve → Equation heat
Workbenches
FEM
Default shortcut
None
Introduced in version
-
See also
FEM tutorial

Description

De completat

For info about the math of the equation, see the Elmer models manual, section Heat Equation.

Usage

  1. After adding an Elmer solver as described here, select it in the tree view.
  2. Now either use the toolbar button or the menu Solve → Heat equation.
  3. Change the equation's solver settings or the general solver settings if necessary.

Solver Settings

For the general solver settings, see the Elmer solver settings.

The heat equation provides these special settings:

  • DateBubbles: There is also a residual-free-bubbles formulation of the stabilized finite-element method. It is more accurate and does not include any ad hoc terms. However, it may be computationally more expensive. If both DateBubbles and DateStabilize are false, no stabilization is used and then the results might easily be nonsensical.
    Note: If during the first solver iteration you get this error:
    ERROR:: IterSolve: Numerical Error: System diverged over maximum tolerance.
    The DateBubbles method failed. In this case set DateStabilize to true.

Equation:

  • DateConvection: The type of convection to be used in the heat equation.
    Note: If this is not set to None, DateStabilize must be to true otherwise the convection term will not be considered for the heat equation.
  • DatePhase Change Model: The model use for phase changes (ice to water etc.). The model Spatial 1 is the apparent-heat-capacity method, Spatial 2 and Temporal are effective-heat-capacity methods.
    For more info about the models, see this paper (section 2.5.2.2) (is in German). In the paper it was also shown that Spatial 1 has numerical problems on larger temperature gradients and that Spatial 2 was preferred for the phase change ice to water.

Constraint Information

The elasticity equation takes the following constraints into account if they are set:

Note

Except for calculations in 2D, for all above constraints it is important that they act on a face or a body. Constraints for 3D set to lines or vertices are not recognized by the Elmer solver.

Result

The result is the temperature in Kelvin.