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authorjaseg <git@jaseg.de>2023-10-11 17:06:42 +0200
committerjaseg <git@jaseg.de>2023-10-11 17:06:42 +0200
commit2d4c40c0f79319a96cc68a484bf82059313b827b (patch)
treede277a8083570527c9562f49d03c14619de523e8 /self-capacitance-working.sif
parenta11f144c675a56aa50f35224c1afa9d2831afb36 (diff)
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Get self capacitance simulation to work
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+Header
+ CHECK KEYWORDS "Warn"
+ Mesh DB "." "mesh"
+End
+
+Simulation
+ Mesh Levels = 1
+ Max Output Level = 7
+ Coordinate System = Cartesian
+ Coordinate Mapping(3) = 1 2 3
+ Simulation Type = Steady state
+ Steady State Max Iterations = 1
+ Output Intervals = 1
+ Timestepping Method = BDF
+ Simulation Timing = True
+ BDF Order = 1
+ Solver Input File = case.sif
+ Post File = case.vtu
+ Output File = case.result
+End
+
+Constants
+ Stefan Boltzmann = 5.6704e-08
+ Permittivity of Vacuum = 8.8541878128e-12
+ Gravity(4) = 0 -1 0 9.80665
+ Boltzmann Constant = 1.380649e-23
+ Unit Charge = 1.602176634e-19
+End
+
+! airEqn
+Equation 1
+ Active Solvers(1) = 1 ! Static_Current_Conduction, Magneto_Dynamics, Magneto_Dynamics_Calculations,
+End
+
+! Static_Current_Conduction
+Solver 1
+ Equation = Electrostatics
+ Procedure = "StatElecSolve" "StatElecSolver"
+ Variable = Potential
+ Calculate Electric Field = True
+ Calculate Electric Energy = True
+ Exec Solver = Always
+ Stabilize = True
+ Bubbles = False
+ Lumped Mass Matrix = False
+ Optimize Bandwidth = True
+ Steady State Convergence Tolerance = 1e-05
+ Nonlinear System Convergence Tolerance = 1e-07
+ Nonlinear System Max Iterations = 20
+ Nonlinear System Newton After Iterations = 3
+ Nonlinear System Newton After Tolerance = 0.001
+ Nonlinear System Relaxation Factor = 1
+ Linear System Solver = Iterative
+ Linear System Iterative Method = BiCGStab
+ Linear System Max Iterations = 500
+ Linear System Convergence Tolerance = 1e-10
+ BiCGstabl polynomial degree = 2
+ Linear System Preconditioning = ILU0
+ Linear System ILUT Tolerance = 0.001
+ Linear System Abort Not Converged = False
+ Linear System Residual Output = 10
+ Linear System Precondition Recompute = 1
+End
+
+
+! air
+Material 1
+ Density = 1.1885
+ Electric Conductivity = 0.0
+ Heat Capacity = 1006.4
+ Heat Conductivity = 0.025873
+ Relative Permeability = 1
+ Relative Permittivity = 1
+End
+
+! ro4003c
+Material 2
+ Density = 1790
+ Electric Conductivity = 0.0
+ Relative Permeability = 1
+ Relative Permittivity = 3.55
+End
+
+! copper
+Material 3
+ Density = 8960.0
+ Electric Conductivity = 59600000
+ Emissivity = 0.012
+ Heat Capacity = 415.0
+ Heat Conductivity = 401.0
+ Relative Permeability = 1
+End
+
+! trace
+Body 1
+ Target Bodies(1) = 3
+ Material = 3 ! copper
+ Body Force = 1 ! electric_potential
+End
+
+! substrate
+Body 2
+ Target Bodies(1) = 1
+ Equation = 1 ! airEqn
+ Material = 2 ! ro4003c
+End
+
+! airbox
+Body 3
+ Target Bodies(1) = 2
+ Equation = 1 ! airEqn
+ Material = 1 ! air
+End
+
+! interface_top
+Body 4
+ Target Bodies(1) = 4
+ Material = 3 ! copper
+End
+
+! interface_bottom
+Body 5
+ Target Bodies(1) = 5
+ Material = 3 ! copper
+End
+
+
+! FarField
+Boundary Condition 1
+ Target Boundaries(1) = 6
+ Electric Infinity BC = True
+End
+
+! Vplus
+Boundary Condition 2
+ Target Boundaries(1) = 4
+ Potential = 1.0
+ Save Scalars = True
+End
+
+! Vminus
+Boundary Condition 3
+ Target Boundaries(1) = 5
+ Potential = 0.0
+End
+
+
+! electric_potential
+Body Force 1
+ Electric Potential = Equals "Potential"
+End
+
+
+