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Diffstat (limited to 'self-capacitance-working.sif')
-rw-r--r-- | self-capacitance-working.sif | 154 |
1 files changed, 154 insertions, 0 deletions
diff --git a/self-capacitance-working.sif b/self-capacitance-working.sif new file mode 100644 index 0000000..e7691df --- /dev/null +++ b/self-capacitance-working.sif @@ -0,0 +1,154 @@ +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 + + + |