FEM GleichungElektrodynamik

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FEM GleichungElektrodynamik

Menüeintrag
Lösen → Electromagnetic Equations → Magnetodynamic equation
Arbeitsbereich
FEM
Standardtastenkürzel
Keiner
Eingeführt in Version
0.21
Siehe auch
GleichungElektrodynamik2D

This equation perform analyses using the Maxwell's equations.

For info about the math of the equation, see the Elmer models manual, section Computation of Magnetic Fields in 3D.

If it is possible to calculate in 2D, simpler math can be used resulting in faster solving times. For 2D, FreeCAD supports therefore Elmer's Magnetodynamic 2D equation.

Anwendung

  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 → Electromagnetic Equations → Magnetodynamic equation.
  3. Change the equation's solver settings or the general solver settings if necessary.
  4. It is recommend to set in the Linear System solver settings the DatenLinear Iterative Method to BiCGStabl , the DatenBiCGstabl Degree to 4 and DatenLinear Preconditioning to None. This assures the equation can be solved in most cases. If so, these parameters can be changed if necessary.

Solver Settings

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

The magnetodynamic equation provides these special settings:

Linear System

  • DatenLinear System Refactorize: Refactorizes the system matrix.

Magnetodynamic

  • DatenAngular Frequency: The harmonic actuation frequency. It is only used if DatenIs Harmonic is set to true.
  • DatenAutomated Source Projection BCs: See Elmer Elmer models manual, section Computation of Magnetic Fields in 3D for info.
  • DatenFixInput Current Density: Ensures divergence-freeness of current density.
  • DatenIs Harmonic: If the driving force is harmonically actuated (AC current). If set to true, DatenAngular Frequency must have a value > 0.
  • DatenLagrange Gauge Penalization Coefficient: See Elmer Elmer models manual, section Computation of Magnetic Fields in 3D for info.
  • DatenQuadratic Approximation: Enables second-order approximation of driving current.
    Note: The default order of Gmsh meshes in FreeCAD is 2nd order. When using 2nd order meshes, it is mandatory to set this option to true. Otherwise you will get this error: ERROR:: GetEdgeBasis: Can't handle but linear elements, sorry.
    However, for most applications, a 1st order mesh is sufficient. An exception is the case when an Isocontour filter should be applied to visualize the results. In this case using a 2nd order mesh and thus setting DatenQuadratic Approximation to true is recommended.
  • DatenStatic Conductivity: See Elmer Elmer models manual, section Computation of Magnetic Fields in 3D for info.
  • DatenUse Lagrange Gauge: See Elmer Elmer models manual, section Computation of Magnetic Fields in 3D for info.
  • DatenUse Piola Transform: Must be true if basis functions for edge element interpolation are selected to be members of optimal edge element family or if second-order approximation is used.
  • DatenUse Tree Gauge: See Elmer Elmer models manual, section Computation of Magnetic Fields in 3D for info. Will be ignored if DatenUse Piola Transform is true.

Ergebnisse

  • DatenCalculate Current Density: Calculates the current density.
  • DatenCalculate Electric Field: Calculates the Electric vector field.
  • DatenCalculate Elemental Fields: Calculates the electromagnetic fields for every mesh element. This is useful to see discontinuities in meshes.
    Note: at the moment FreeCAD cannot display these results properly. Therefore it is at the moment of no practical use.
  • DatenCalculate Harmonic Loss: Calculates the linear and quadratic harmonic power loss. See the Elmer models manual, section Loss Estimation Using the Fourier Series for details
  • DatenCalculate Joule Heating: Calculates the Joule heating.
  • DatenCalculate Magnetic Strength: Calculates the Magnetic field strength.
  • DatenCalculate Maxwell Stress: Calculates the Maxwell stress tensor field.
  • DatenCalculate Nodal Fields: Calculates the fields for every mesh node. The default is true. If no other DatenCalculate * is set to true, it only calculates the magnetic flux density.
  • DatenCalculate Nodal Forces: Calculates the forces for every mesh node. The results can be used for further mechanical analysis.
  • DatenCalculate Nodal Heating: Calculates the Joule heating scalar field for every mesh node.

Analysis Feature Information

The magnetodynamic equation takes the following analysis features into account if they are set:

Ergebnisse

The available results depend on the solver settings. If none of the DatenCalculate * settings was set to true, only the electric (called av in the results) potential is calculated. Otherwise also the corresponding results will be available.

The possible results are:

  • Current density in
  • Electric field vector values in
  • Harmonic power loss in
  • Magnetic flux density in
  • Maxwell stress tensor values in
  • Magnetic field strength in
  • Nodal force in
  • Joule heating in
  • Potential in