Variable boundary condition execution

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Variable boundary condition execution
To whom it may concern
I have a problem with a variable boundary condition. In my modeling, the variable boundary condition of Heat Flux and Pressure didn't execute. I write the SIF file for your reference. I would be pleased if you kindly help me.
Header
CHECK KEYWORDS Warn
Mesh DB "." "."
Include Path ""
Results Directory ""
End
Simulation
Max Output Level = 5
Coordinate System = Cartesian
Coordinate Mapping(3) = 1 2 3
Simulation Type = Transient
Steady State Max Iterations = 10
Output Intervals = 1
Timestepping Method = BDF
BDF Order = 1
Timestep intervals = 5
Timestep Sizes = 1
Solver Input File = case.sif
Post File = case.vtu
End
Constants
Gravity(4) = 0 1 0 9.82
Stefan Boltzmann = 5.67e08
Permittivity of Vacuum = 8.8542e12
Boltzmann Constant = 1.3807e23
Unit Charge = 1.602e19
End
Body 1
Target Bodies(1) = 1
Name = "Body 1"
Equation = 1
Material = 1
Initial condition = 1
End
Body 2
Target Bodies(1) = 2
Name = "Body 2"
Equation = 1
Material = 2
Initial condition = 2
End
Body 3
Target Bodies(1) = 3
Name = "Body 3"
Equation = 2
Material = 3
Initial condition = 3
End
Body 4
Target Bodies(1) = 4
Name = "Body 4"
Equation = 2
Material = 3
Initial condition = 3
End
Body 5
Target Bodies(1) = 5
Name = "Body 5"
Equation = 1
Material = 1
Initial condition = 3
End
Body 6
Target Bodies(1) = 6
Name = "Body 6"
Equation = 2
Material = 3
Initial condition = 3
End
Body 7
Target Bodies(1) = 7
Name = "Body 7"
Equation = 2
Material = 3
Initial condition = 3
End
Solver 2
Equation = Heat Equation
Procedure = "HeatSolve" "HeatSolver"
Variable = Temperature
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Iterative
Linear System Iterative Method = BiCGStab
Linear System Max Iterations = 500
Linear System Convergence Tolerance = 1.0e10
BiCGstabl polynomial degree = 2
Linear System Preconditioning = ILU0
Linear System ILUT Tolerance = 1.0e3
Linear System Abort Not Converged = False
Linear System Residual Output = 10
Linear System Precondition Recompute = 1
End
Solver 1
Equation = NavierStokes
Variable = Flow Solution[Velocity:3 Pressure:1]
Procedure = "FlowSolve" "FlowSolver"
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Direct
Linear System Direct Method = Umfpack
End
Equation 1
Name = "Equation 1"
Convection = Computed
Active Solvers(1) = 2
End
Equation 2
Name = "Equation 2"
Convection = Computed
Active Solvers(2) = 2 1
End
Material 1
Name = "Material 1"
Heat Conductivity = 10
Density = 8000
End
Material 2
Name = "Material 2"
Density = 1800
Viscosity = 0.0009
Heat Conductivity = 88
End
Material 3
Name = "Material 3"
Viscosity = 0.00088
Heat Conductivity = 85
Density = 0.01
End
Initial Condition 1
Name = "InitialCondition 1"
Temperature = Variable coordinate 3
Real MATC" 10733893.8*tx"
End
Initial Condition 2
Name = "InitialCondition 6"
Temperature = Variable coordinate 3
Real MATC" 1034442.5*(tx0.01)
End
Initial Condition 3
Name = "InitialCondition 8"
Temperature = 1023
End
Boundary Condition 1
Target Boundaries(1) = 8
Name = "BoundaryCondition 1"
Velocity 3 = 0
Temperature = 1073
Velocity 2 = 0
Velocity 1 = 0
End
Boundary Condition 2
Target Boundaries(11) = 15 22 24 26 27 28 33 34 35 36 37
Name = "BoundaryCondition 2"
Noslip wall BC = True
End
Boundary Condition 3
Target Boundaries(1) = 14
Name = "BoundaryCondition 3"
Temperature = 1023.001
External Pressure = Variable " Temperature"
Real MATC " exp(7750/tx +12.79  1.41 * tx)*101300/760
Heat Flux = Variable " Velocity 3 "
Real MATC " 124700*24*0.01*tx "
End
Boundary Condition 4
Target Boundaries(1) = 38
Name = "BoundaryCondition 6"
Temperature = 1023
End
I have a problem with a variable boundary condition. In my modeling, the variable boundary condition of Heat Flux and Pressure didn't execute. I write the SIF file for your reference. I would be pleased if you kindly help me.
Header
CHECK KEYWORDS Warn
Mesh DB "." "."
Include Path ""
Results Directory ""
End
Simulation
Max Output Level = 5
Coordinate System = Cartesian
Coordinate Mapping(3) = 1 2 3
Simulation Type = Transient
Steady State Max Iterations = 10
Output Intervals = 1
Timestepping Method = BDF
BDF Order = 1
Timestep intervals = 5
Timestep Sizes = 1
Solver Input File = case.sif
Post File = case.vtu
End
Constants
Gravity(4) = 0 1 0 9.82
Stefan Boltzmann = 5.67e08
Permittivity of Vacuum = 8.8542e12
Boltzmann Constant = 1.3807e23
Unit Charge = 1.602e19
End
Body 1
Target Bodies(1) = 1
Name = "Body 1"
Equation = 1
Material = 1
Initial condition = 1
End
Body 2
Target Bodies(1) = 2
Name = "Body 2"
Equation = 1
Material = 2
Initial condition = 2
End
Body 3
Target Bodies(1) = 3
Name = "Body 3"
Equation = 2
Material = 3
Initial condition = 3
End
Body 4
Target Bodies(1) = 4
Name = "Body 4"
Equation = 2
Material = 3
Initial condition = 3
End
Body 5
Target Bodies(1) = 5
Name = "Body 5"
Equation = 1
Material = 1
Initial condition = 3
End
Body 6
Target Bodies(1) = 6
Name = "Body 6"
Equation = 2
Material = 3
Initial condition = 3
End
Body 7
Target Bodies(1) = 7
Name = "Body 7"
Equation = 2
Material = 3
Initial condition = 3
End
Solver 2
Equation = Heat Equation
Procedure = "HeatSolve" "HeatSolver"
Variable = Temperature
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Iterative
Linear System Iterative Method = BiCGStab
Linear System Max Iterations = 500
Linear System Convergence Tolerance = 1.0e10
BiCGstabl polynomial degree = 2
Linear System Preconditioning = ILU0
Linear System ILUT Tolerance = 1.0e3
Linear System Abort Not Converged = False
Linear System Residual Output = 10
Linear System Precondition Recompute = 1
End
Solver 1
Equation = NavierStokes
Variable = Flow Solution[Velocity:3 Pressure:1]
Procedure = "FlowSolve" "FlowSolver"
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Direct
Linear System Direct Method = Umfpack
End
Equation 1
Name = "Equation 1"
Convection = Computed
Active Solvers(1) = 2
End
Equation 2
Name = "Equation 2"
Convection = Computed
Active Solvers(2) = 2 1
End
Material 1
Name = "Material 1"
Heat Conductivity = 10
Density = 8000
End
Material 2
Name = "Material 2"
Density = 1800
Viscosity = 0.0009
Heat Conductivity = 88
End
Material 3
Name = "Material 3"
Viscosity = 0.00088
Heat Conductivity = 85
Density = 0.01
End
Initial Condition 1
Name = "InitialCondition 1"
Temperature = Variable coordinate 3
Real MATC" 10733893.8*tx"
End
Initial Condition 2
Name = "InitialCondition 6"
Temperature = Variable coordinate 3
Real MATC" 1034442.5*(tx0.01)
End
Initial Condition 3
Name = "InitialCondition 8"
Temperature = 1023
End
Boundary Condition 1
Target Boundaries(1) = 8
Name = "BoundaryCondition 1"
Velocity 3 = 0
Temperature = 1073
Velocity 2 = 0
Velocity 1 = 0
End
Boundary Condition 2
Target Boundaries(11) = 15 22 24 26 27 28 33 34 35 36 37
Name = "BoundaryCondition 2"
Noslip wall BC = True
End
Boundary Condition 3
Target Boundaries(1) = 14
Name = "BoundaryCondition 3"
Temperature = 1023.001
External Pressure = Variable " Temperature"
Real MATC " exp(7750/tx +12.79  1.41 * tx)*101300/760
Heat Flux = Variable " Velocity 3 "
Real MATC " 124700*24*0.01*tx "
End
Boundary Condition 4
Target Boundaries(1) = 38
Name = "BoundaryCondition 6"
Temperature = 1023
End

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 Posts: 3886
 Joined: 22 Aug 2009, 11:57
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 Location: Espoo, Finland
 Contact:
Re: Variable boundary condition execution
Hi, Be more careful with the quatiotion marks. Peter

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Re: Variable boundary condition execution
Dear Peter
I double checked the quotation marks and still I have a same problem. The variable boundary condition doesn't execute.
I write the corrected SIF file for your reference.
Header
CHECK KEYWORDS Warn
Mesh DB "." "."
Include Path ""
Results Directory ""
End
Simulation
Max Output Level = 5
Coordinate System = Cartesian
Coordinate Mapping(3) = 1 2 3
Simulation Type = Transient
Steady State Max Iterations = 10
Output Intervals = 1
Timestepping Method = BDF
BDF Order = 1
Timestep intervals = 5
Timestep Sizes = 1
Solver Input File = case.sif
Post File = case.vtu
End
Constants
Gravity(4) = 0 1 0 9.82
Stefan Boltzmann = 5.67e08
Permittivity of Vacuum = 8.8542e12
Boltzmann Constant = 1.3807e23
Unit Charge = 1.602e19
End
Body 1
Target Bodies(1) = 1
Name = "Body 1"
Equation = 1
Material = 1
Initial condition = 1
End
Body 2
Target Bodies(1) = 2
Name = "Body 2"
Equation = 1
Material = 2
Initial condition = 2
End
Body 3
Target Bodies(1) = 3
Name = "Body 3"
Equation = 2
Material = 3
Initial condition = 3
End
Body 4
Target Bodies(1) = 4
Name = "Body 4"
Equation = 2
Material = 3
Initial condition = 3
End
Body 5
Target Bodies(1) = 5
Name = "Body 5"
Equation = 1
Material = 1
Initial condition = 3
End
Body 6
Target Bodies(1) = 6
Name = "Body 6"
Equation = 2
Material = 3
Initial condition = 3
End
Body 7
Target Bodies(1) = 7
Name = "Body 7"
Equation = 2
Material = 3
Initial condition = 3
End
Solver 2
Equation = Heat Equation
Procedure = "HeatSolve" "HeatSolver"
Variable = Temperature
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Iterative
Linear System Iterative Method = BiCGStab
Linear System Max Iterations = 500
Linear System Convergence Tolerance = 1.0e10
BiCGstabl polynomial degree = 2
Linear System Preconditioning = ILU0
Linear System ILUT Tolerance = 1.0e3
Linear System Abort Not Converged = False
Linear System Residual Output = 10
Linear System Precondition Recompute = 1
End
Solver 1
Equation = NavierStokes
Variable = Flow Solution[Velocity:3 Pressure:1]
Procedure = "FlowSolve" "FlowSolver"
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Direct
Linear System Direct Method = Umfpack
End
Equation 1
Name = "Equation 1"
Convection = Computed
Active Solvers(1) = 2
End
Equation 2
Name = "Equation 2"
Convection = Computed
Active Solvers(2) = 2 1
End
Material 1
Name = "Material 1"
Heat Conductivity = 10
Density = 8000
End
Material 2
Name = "Material 2"
Density = 1800
Viscosity = 0.0009
Heat Conductivity = 88
End
Material 3
Name = "Material 3"
Viscosity = 0.00088
Heat Conductivity = 85
Density = 0.01
End
Initial Condition 1
Name = "InitialCondition 1"
Temperature = Variable coordinate 3
Real MATC" 1073(3893.8 * (tx)) "
End
Initial Condition 2
Name = "InitialCondition 6"
Temperature = Variable coordinate 3
Real MATC" 1034(442.5 * (tx0.01)) "
End
Initial Condition 3
Name = "InitialCondition 8"
Temperature = 1023
End
Boundary Condition 1
Target Boundaries(1) = 8
Name = "BoundaryCondition 1"
Velocity 3 = 0
Temperature = 1073
Velocity 2 = 0
Velocity 1 = 0
End
Boundary Condition 2
Target Boundaries(11) = 15 22 24 26 27 28 33 34 35 36 37
Name = "BoundaryCondition 2"
Noslip wall BC = True
End
Boundary Condition 3
Target Boundaries(1) = 14
Name = "BoundaryCondition 3"
Temperature = 1023.001
External Pressure = Variable " Temperature"
Real MATC " exp (7750/(tx)+12.79  1.41 * ( tx)) * ( 101300/760 ) "
Heat Flux = Variable " Velocity 3 "
Real MATC " 124700 * 24 * 0.01 * tx "
End
Boundary Condition 4
Target Boundaries(1) = 38
Name = "BoundaryCondition 6"
Temperature = 1023
End
I double checked the quotation marks and still I have a same problem. The variable boundary condition doesn't execute.
I write the corrected SIF file for your reference.
Header
CHECK KEYWORDS Warn
Mesh DB "." "."
Include Path ""
Results Directory ""
End
Simulation
Max Output Level = 5
Coordinate System = Cartesian
Coordinate Mapping(3) = 1 2 3
Simulation Type = Transient
Steady State Max Iterations = 10
Output Intervals = 1
Timestepping Method = BDF
BDF Order = 1
Timestep intervals = 5
Timestep Sizes = 1
Solver Input File = case.sif
Post File = case.vtu
End
Constants
Gravity(4) = 0 1 0 9.82
Stefan Boltzmann = 5.67e08
Permittivity of Vacuum = 8.8542e12
Boltzmann Constant = 1.3807e23
Unit Charge = 1.602e19
End
Body 1
Target Bodies(1) = 1
Name = "Body 1"
Equation = 1
Material = 1
Initial condition = 1
End
Body 2
Target Bodies(1) = 2
Name = "Body 2"
Equation = 1
Material = 2
Initial condition = 2
End
Body 3
Target Bodies(1) = 3
Name = "Body 3"
Equation = 2
Material = 3
Initial condition = 3
End
Body 4
Target Bodies(1) = 4
Name = "Body 4"
Equation = 2
Material = 3
Initial condition = 3
End
Body 5
Target Bodies(1) = 5
Name = "Body 5"
Equation = 1
Material = 1
Initial condition = 3
End
Body 6
Target Bodies(1) = 6
Name = "Body 6"
Equation = 2
Material = 3
Initial condition = 3
End
Body 7
Target Bodies(1) = 7
Name = "Body 7"
Equation = 2
Material = 3
Initial condition = 3
End
Solver 2
Equation = Heat Equation
Procedure = "HeatSolve" "HeatSolver"
Variable = Temperature
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Iterative
Linear System Iterative Method = BiCGStab
Linear System Max Iterations = 500
Linear System Convergence Tolerance = 1.0e10
BiCGstabl polynomial degree = 2
Linear System Preconditioning = ILU0
Linear System ILUT Tolerance = 1.0e3
Linear System Abort Not Converged = False
Linear System Residual Output = 10
Linear System Precondition Recompute = 1
End
Solver 1
Equation = NavierStokes
Variable = Flow Solution[Velocity:3 Pressure:1]
Procedure = "FlowSolve" "FlowSolver"
Exec Solver = Always
Stabilize = True
Bubbles = False
Lumped Mass Matrix = False
Optimize Bandwidth = True
Steady State Convergence Tolerance = 1.0e5
Nonlinear System Convergence Tolerance = 1.0e7
Nonlinear System Max Iterations = 20
Nonlinear System Newton After Iterations = 3
Nonlinear System Newton After Tolerance = 1.0e3
Nonlinear System Relaxation Factor = 1
Linear System Solver = Direct
Linear System Direct Method = Umfpack
End
Equation 1
Name = "Equation 1"
Convection = Computed
Active Solvers(1) = 2
End
Equation 2
Name = "Equation 2"
Convection = Computed
Active Solvers(2) = 2 1
End
Material 1
Name = "Material 1"
Heat Conductivity = 10
Density = 8000
End
Material 2
Name = "Material 2"
Density = 1800
Viscosity = 0.0009
Heat Conductivity = 88
End
Material 3
Name = "Material 3"
Viscosity = 0.00088
Heat Conductivity = 85
Density = 0.01
End
Initial Condition 1
Name = "InitialCondition 1"
Temperature = Variable coordinate 3
Real MATC" 1073(3893.8 * (tx)) "
End
Initial Condition 2
Name = "InitialCondition 6"
Temperature = Variable coordinate 3
Real MATC" 1034(442.5 * (tx0.01)) "
End
Initial Condition 3
Name = "InitialCondition 8"
Temperature = 1023
End
Boundary Condition 1
Target Boundaries(1) = 8
Name = "BoundaryCondition 1"
Velocity 3 = 0
Temperature = 1073
Velocity 2 = 0
Velocity 1 = 0
End
Boundary Condition 2
Target Boundaries(11) = 15 22 24 26 27 28 33 34 35 36 37
Name = "BoundaryCondition 2"
Noslip wall BC = True
End
Boundary Condition 3
Target Boundaries(1) = 14
Name = "BoundaryCondition 3"
Temperature = 1023.001
External Pressure = Variable " Temperature"
Real MATC " exp (7750/(tx)+12.79  1.41 * ( tx)) * ( 101300/760 ) "
Heat Flux = Variable " Velocity 3 "
Real MATC " 124700 * 24 * 0.01 * tx "
End
Boundary Condition 4
Target Boundaries(1) = 38
Name = "BoundaryCondition 6"
Temperature = 1023
End

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 Posts: 3886
 Joined: 22 Aug 2009, 11:57
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 Contact:
Re: Variable boundary condition execution
Hi
What exactly do you mean by "does not execute"? Do you get results with constant BCs? Do you get errors? What does the output say?
Peter
What exactly do you mean by "does not execute"? Do you get results with constant BCs? Do you get errors? What does the output say?
Peter

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Re: Variable boundary condition execution
Dear Peter
The modeling run without any errors. But when I made changes in variable boundary conditions, the results in Paraview and convergence diagram were constant. I think that is because of the boundary condition didn't execute in modeling. for example, when I removed the variable boundary condition, I got the same results in ParaView and convergence. it seems that the calculation didn't count variable boundary conditions. I got the result by using constant BC. So, I think that this is because of the variable BC.
Thank you for your help
I am looking forward to hearing your opinion
Armaghan
The modeling run without any errors. But when I made changes in variable boundary conditions, the results in Paraview and convergence diagram were constant. I think that is because of the boundary condition didn't execute in modeling. for example, when I removed the variable boundary condition, I got the same results in ParaView and convergence. it seems that the calculation didn't count variable boundary conditions. I got the result by using constant BC. So, I think that this is because of the variable BC.
Thank you for your help
I am looking forward to hearing your opinion
Armaghan

 Site Admin
 Posts: 3886
 Joined: 22 Aug 2009, 11:57
 Antispam: Yes
 Location: Espoo, Finland
 Contact:
Re: Variable boundary condition execution
Hi
You have for heat solver both Neumann and Dirichlet condition. You can't have both. The Dirichlet condition always prevails and for you its constant.
Peter
You have for heat solver both Neumann and Dirichlet condition. You can't have both. The Dirichlet condition always prevails and for you its constant.
Peter

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Re: Variable boundary condition execution
Hi Peter
Thank you for your response, How can I change it to the variable? I am new in Elmer and I don't know How can I fix it.
I appreciate the time that you spend on my modeling
sincerely,
Armaghan
Thank you for your response, How can I change it to the variable? I am new in Elmer and I don't know How can I fix it.
I appreciate the time that you spend on my modeling
sincerely,
Armaghan

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Re: Variable boundary condition execution
Dear Peter
I would be pleased if you give me some advice about how to change the Dirichlet boundary condition from constant to a variable?
I have two variable boundary conditions the first one is heat flux that is variable of velocity 3 and the second one is pressure 3 that is available of temperature. I read the Elmer manual but I couldn't find a way to change the Dirichlet boundary condition to a variable one.
Thank you for your help
I am looking forward to hearing your opinion
Armaghan
I would be pleased if you give me some advice about how to change the Dirichlet boundary condition from constant to a variable?
I have two variable boundary conditions the first one is heat flux that is variable of velocity 3 and the second one is pressure 3 that is available of temperature. I read the Elmer manual but I couldn't find a way to change the Dirichlet boundary condition to a variable one.
Thank you for your help
I am looking forward to hearing your opinion
Armaghan

 Site Admin
 Posts: 3886
 Joined: 22 Aug 2009, 11:57
 Antispam: Yes
 Location: Espoo, Finland
 Contact:
Re: Variable boundary condition execution
Hi
Almost any keyword that is Real valued may be constant, table, MATC or F90 function. This applies to Temperature BCs as well.
Peter
Almost any keyword that is Real valued may be constant, table, MATC or F90 function. This applies to Temperature BCs as well.
Peter

 Posts: 26
 Joined: 28 Jul 2020, 11:24
 Antispam: Yes
Re: Variable boundary condition execution
What do you mean? Should I remove the temperature in the Dirichlet boundary condition? What should I do in Pressure boundary condition?