|
Electromagnetic & Electrical Library |
|
|
|
Static Analysis
Thermal Analysis
Dynamic Analysis (Eigenvalue)
Dynamic Response Analysis
Fluid Analysis (& Seepage)
Acoustic Analysis
Electrical Network Elements
to compute voltages & currents in a network, the 2-node element LISA-index 42 must be solved using the fluid analysis solver
The thermal analysis module can be used to compute the voltage, by interpreting an electric potential field for conduction, specific conductivity for thermal conductivity, voltage for temperature, internal current source for internal heat source and externally applied currents for convection.
The fluid analysis module can be used to compute the voltage, by interpreting an electric potential field for seepage, specific conductivity for permeability coefficients, voltage for pressure potentials and internal current source for internal internal source flow.
|
|
Electromagnetic Elements
A.] Using Thermal Analysis Elements
The thermal analysis module can be used to compute the electric force intensity, by interpreting an electrostatic field for conduction, permitivities for thermal conductivity, electric force intensity for temperature and internal current source for internal heat source.
The thermal analysis module can be used to compute the magneto-motive force, by interpreting the magnetostatic field for conduction, magneto-motive force for temperature, permeabilities for thermal conductivity, internal magnetic field for internal heat source and externally applied magnetic field intensity for convection heat transfer coefficient.
B.] Using Fluid Analysis Elements
The fluid analysis module can be used to compute the electric force intensity, by interpreting an electrostatic field for seepage, permitivities for permeability coefficients, electric force intensity for pressure potentials and internal current source for internal internal source flow.
The fluid analysis module can be used to compute the magneto-motive force, by interpreting the magnetostatic field for seepage, magneto-motive force for pressure potential, magnetic permeabilities for permeability coefficients, internal magnetic field for internal source flow. There is no equivalent for externally applied magnetic field intensities, and the thermal analysis module will have to be used.
|
|
|
|
