STDBE511 example 5

• Both fluid and porous medium are considered
• L = 0.1 m
• dx = 0.1/50
• K0 = E-10 m2
• Da = E-8
• V_TOP = 0.01
• dt = dx / V_TOP = 0.2
• StabOption=1

Mesh:

[TOC]

Header

!!! note "Some simulation parameter"

#define _K0_ 1.0E-10
#define _PHI_ 0.5_DFP
#define _DT_ 0.2
#define _VTOP_ 0.01_DFP
#define _MU_FLUID_ 0.001
#define _RHO_FLUID_ 1000.0
#define _TIMESTEPS_ maxI4B
#define _MAX_ITER_ 20
#define _tDBC4P_ 0
#define _REF_PRESSURE_NODE_ 90
#define _STAB_PARAM_OPTION_ 1
#define _MATERTIAL_INTERFACES_ [7]
#define _SAVE_STATE_FREQ_ 100
#define _WRITE_FREQ_ 1

varName	Comment
_K0_	permeability of the soil
_PHI_	porosity of the soil
_DT_	time step size
_VTOP_	velocity at top
_MU_FLUID_	dynamic viscosity of fluid
_RHO_FLUID_	mass-density of fluid
_TIMESTEPS_	number of time steps
_MAX_ITER_	maximum number of Newton iteration
_tDBC4P_	total Dirichlet BC for pressure
_REF_PRESSURE_NODE_	reference node number for pressure
_STAB_PARAM_OPTION_	stabilization option
_MATERTIAL_INTERFACES_	mesh-id of fluid-soil interfaces
_SAVE_STATE_FREQ_	save-state frequency
_WRITE_FREQ_	write-frequency

!!! note "Include modules"

PROGRAM main
  USE easifemBase
  USE easifemClasses
  USE easifemMaterials
  USE easifemKernels
  USE STDBE511_Class
  IMPLICIT NONE

Declare variables

  TYPE(STDBE511_) :: obj
  TYPE(ParameterList_) :: param
  TYPE(HDF5File_) :: domainFile
  TYPE( HDF5File_ ) :: outfile
  TYPE( HDF5File_ ) :: statefile
  TYPE(MeshSelection_) :: region
  TYPE(Domain_), TARGET :: dom
  CLASS(DirichletBC_), POINTER :: dbc => NULL()
  CHARACTER(LEN=*), PARAMETER :: &
    & domainFileName = "./mesh.h5"
  CHARACTER( LEN = * ), PARAMETER :: &
    & outfilePrefix="./output"
  CHARACTER( LEN = * ), PARAMETER :: &
    & statePrefix="./state"
  INTEGER( I4B ), PARAMETER :: CoordinateSystem = KERNEL_2D
  INTEGER( I4B ), PARAMETER :: SaveStateFrequency = _SAVE_STATE_FREQ_
  INTEGER( I4B ), PARAMETER :: writeFrequency = _WRITE_FREQ_
  INTEGER( I4B ) :: backupNumber

var-name	comment
obj	Instance of [[STDBE511_]] kernel
param	parameters instance of [[ParameterList_]]
domainFile	domain file [[HDF5File_]]
outfile	output file [[HDF5File_]]
statefile	state file [[HDF5File_]]
region	mesh region [[MeshSelection_]]
dom	domain [[Domain_]]
dbc	instance of dirichlet boundary condition [[NeumannBC_]]
domainFileName	domain file name
outfilePrefix	output file prefix
statePrefix	state file prefix
coordinateSystem	coordinate system
saveStateFrequency	saving frequency for state files
writeFrequency	write frequency for output files
backupNumber	interal variable

!!! note "Linear solver parameters"

  INTEGER(I4B), PARAMETER :: LinSolver_name = LIS_GMRES
  INTEGER(I4B), PARAMETER :: KrylovSubspaceSize = 50
  INTEGER(I4B), PARAMETER :: maxIter_LinSolver = -1
  REAL(DFP), PARAMETER :: rtol_LinSolver=1.0D-6
  REAL(DFP), PARAMETER :: atol_LinSolver=1.0D-10
  INTEGER(I4B), PARAMETER :: preconditionOption = NO_PRECONDITION
  INTEGER(I4B), PARAMETER :: convergenceIn_LinSolver = convergenceInRes
  INTEGER(I4B), PARAMETER :: convergenceType_LinSolver = relativeConvergence
  LOGICAL( LGT ), PARAMETER :: relativeToRHS = .FALSE.

var-name	comment
LinSolver_name	name of linear solver
KrylovSubspaceSize	a parameter for linsol
maxIter_LinSolver	max number of iterations in linsol
rtol_LinSolver	relative tolerance for linsol
atol_LinSolver	absolute tolerance for linsol
preconditionOption	precondition option
convergenceIn_LinSolver	convergence criteria for linsol
convergenceType_LinSolver	convergence criteria for linsol: relative or absolute.
relativeToRHS	if convergence is relative then relative to RHS or not.

Currently, NO_PRECONDITON means diagonal preconditioning will be selected.

!!! note "Iteration parameters"

  INTEGER(I4B), PARAMETER :: nnt = 2
  INTEGER( I4B ), PARAMETER :: stabParamOption = _STAB_PARAM_OPTION_
  INTEGER( I4B ), PARAMETER :: maxIter= _MAX_ITER_
  INTEGER(I4B), PARAMETER :: TotalTimeSteps = _TIMESTEPS_
  REAL(DFP), PARAMETER :: startTime=0.0_DFP
  REAL(DFP), PARAMETER :: dt= _DT_
  REAL(DFP), PARAMETER :: endTime=dt*TotalTimeSteps
  REAL( DFP ), PARAMETER :: atol_Pressure=1.0D-10
  REAL( DFP ), PARAMETER :: rtol_Pressure=1.0D-10
  REAL( DFP ), PARAMETER :: atol_Velocity=1.0D-6
  REAL( DFP ), PARAMETER :: rtol_Velocity=1.0D-6
  REAL( DFP ), PARAMETER :: tol_steadyState = 1.0E-8
  LOGICAL( LGT ), PARAMETER :: resetIteration = .FALSE.
  LOGICAL( LGT ), PARAMETER :: resetTimeStep = .FALSE.

var-name	comment
nnt	number of nodes in time
stabParamOption	stabilization parameter option
maxIter	maximum number of iteration
TotalTimeSteps	total number of time steps for the simulation
startTime	start time of simulation
dt	time step size of simulation
endTime	end time of simulation
atol_Pressure	absolute tolerance for checking convergence in pressure
rtol_Pressure	relative tolerance for checking convergence in pressure
atol_Velocity	absolute tolerance for checking convergence in velocity
rtol_Velocity	relative tolerance for checking convergence in velocity
tol_steadyState	tolerance for checking steady state
resetIteration	reset variables to zero after each iteration
resetTimeStep	reset variables to zero after each time step

!!! note "Materials and boundary conditions"

  INTEGER(I4B), PARAMETER :: tPorousMaterials = 2
  INTEGER(I4B), PARAMETER :: tFluidMaterials = 1
  INTEGER(I4B), PARAMETER :: tDirichletBCForVelocity = 3
  INTEGER(I4B), PARAMETER :: tDirichletBCForPressure = _tDBC4P_
  INTEGER( I4B ), PARAMETER :: refPressureNode = _REF_PRESSURE_NODE_
  INTEGER( I4B ), PARAMETER :: materialInterfaces(1) = _MATERTIAL_INTERFACES_
  REAL(DFP), PARAMETER :: porosity= _PHI_
  REAL(DFP), PARAMETER :: porosity_fluid=1.0_DFP
  REAL(DFP), PARAMETER :: permeability = _K0_
  REAL(DFP), PARAMETER :: permeability_fluid=1.0E+30
  REAL(DFP), PARAMETER :: massdensity_soil=1700.0
  REAL(DFP), PARAMETER :: massdensity_fluid = _RHO_FLUID_
  REAL(DFP), PARAMETER :: dynamicViscosity = _MU_FLUID_
  REAL(DFP), PARAMETER :: V_TOP= _VTOP_

var-name	comment
tPorousMaterials	total porous media
tFluidMaterials	total fluid material
tDirichletBCForVelocity	total dirichlet boundary condition for velocity
tDirichletBCForPressure	total dirichlet boundary condition for pressure
refPressureNode	reference node number for pressure
porosity	porosity of soil
massdensity_soil	mass density of soil
permeability	permeability of soil
massdensity_fluid	mass density of fluid
dynamicViscosity	dynamic viscosity of fluid
V_TOP	velocity at the top

!!! note "Internal variables"

  LOGICAL( LGT ) :: convg
  INTEGER( I4B ) :: iter
  INTEGER( I4B ) :: its
  REAL( DFP ) :: t1, t2, t2t1

SetSTDBE511Param

• [[STDBE511_#SetSTDBE511Param]]

  CALL FPL_INIT(); CALL param%Initiate()
  !!
  CALL SetSTDBE511Param( &
    & param=param, &
    & materialInterfaces=materialInterfaces, &
    & stabParamOption=stabParamOption, &
    & engine="NATIVE_SERIAL", &
    & nnt=nnt, &
    & startTime=startTime, &
    & endTime=endTime, &
    & dt=dt, &
    & coordinateSystem=coordinateSystem, &
    & maxIter=maxIter, &
    & atoleranceForPressure=atol_pressure, &
    & atoleranceForVelocity=atol_velocity, &
    & rtoleranceForPressure=rtol_pressure, &
    & rtoleranceForVelocity=rtol_velocity, &
    & toleranceForSteadyState=tol_steadyState, &
    & tPorousMaterials=tPorousMaterials, &
    & tFluidMaterials=tFluidMaterials, &
    & tDirichletBCForVelocity=tDirichletBCForVelocity, &
    & tDirichletBCForPressure=tDirichletBCForPressure, &
    & domainFile=domainFileName)

SetLinSolverParam

  CALL SetLinSolverParam( &
    & param=param, &
    & solverName=LinSolver_name,&
    & preconditionOption=preconditionOption, &
    & convergenceIn=convergenceIn_LinSolver, &
    & convergenceType=convergenceType_LinSolver, &
    & maxIter=maxIter_LinSolver, &
    & relativeToRHS=relativeToRHS, &
    & KrylovSubspaceSize=KrylovSubspaceSize, &
    & rtol=rtol_LinSolver, &
    & atol=atol_LinSolver )

Domain Initiate

Domain for pressure and velocity field

  CALL domainFile%Initiate( filename=domainFileName, MODE="READ")
  CALL domainFile%Open()
  CALL dom%Initiate(domainFile, "")
  CALL domainFile%Deallocate()

Initiate

Initiate the STDBE511 kernel [[STDBE511_#Initiate]]

  CALL obj%Initiate(param=param, dom=dom)

AddPorousMaterial

Add Porous Material (bottom region)

• [[MeshSelection_#Initiate]]
• [[MeshSelection_#Add]]
• [[MeshSelection_#SetPorousMaterialParam]]

  CALL region%Initiate(isSelectionByMeshID=.TRUE.)
  CALL region%Add(dim=obj%nsd, meshID=[1])
  CALL region%Add(dim=obj%nsd-1, meshID=materialInterfaces )

  CALL SetPorousMaterialParam( &
    & param=param, &
    & name="porousMaterial", &
    & massdensity=massdensity_soil, &
    & porosity=porosity, &
    & permeability=permeability )

• [[STDBE511_#AddPorousMaterial]]

  CALL obj%AddPorousMaterial( &
    & materialNo=1, &
    & materialName="porousMaterial", &
    & param=param, &
    & region=region)

Deallocate the region, so that we can use it again.

  CALL region%Deallocate()

Adding another porous medium (top part)

Initiate region:

  CALL region%Initiate(isSelectionByMeshID=.TRUE.)
  CALL region%Add(dim=obj%nsd, meshID=[2])

Set porous material properties.

  CALL SetPorousMaterialParam( &
    & param=param, &
    & name="porousMaterial", &
    & massdensity=massdensity_fluid, &
    & porosity=porosity_fluid, &
    & permeability=permeability_fluid )

Add porous material to kernel, and deallocate the region.

  CALL obj%AddPorousMaterial( &
    & materialNo=2, &
    & materialName="porousMaterial", &
    & param=param, &
    & region=region)
  !!
  CALL region%Deallocate()

AddFluidMaterial

• [[STDBE511_#AddFluidMaterial]]

  CALL region%Initiate(isSelectionByMeshID=.TRUE.)
  CALL region%Add(dim=obj%nsd, meshID=[1,2])
  CALL region%Add(dim=obj%nsd-1, meshID=materialInterfaces )
  !!
  CALL SetFluidMaterialParam( &
    & param=param, &
    & name="fluidMaterial", &
    & massDensity=massdensity_fluid, &
    & dynamicViscosity=dynamicViscosity )
  !!
  CALL obj%AddFluidMaterial( &
    & materialNo=1, &
    & materialName="fluidMaterial", &
    & param=param, &
    & region=region )
  !!
  CALL region%Deallocate()
  !!

DirichletBoundaryCondition

In this problem we only have dirichlet boundary condition for velocity. At all boundary we have dirichlet boundary condition.

Vx=0

Select the mesh boundary where $v_{x}=0$ is prescribed.

• [[MeshSelection_#Initiate]]
• [[MeshSelection_#Add]]
• [[MeshSelection_#Set]]

  CALL region%Initiate( &
    & isSelectionByMeshID=.TRUE., &
    & isSelectionByNodeNum=.TRUE. )
  CALL region%Add(dim=obj%nsd-1, meshID=[1,2,6])
  CALL region%Add( &
    & nodenum=dom%getInternalNptrs( dim=obj%nsd-1, entityNum=[3,5] ) )
  CALL region%Set()

Set the parameters for dirichlet boundary condition. [[NeumannBC_#SetDirichletBCParam]]

  CALL SetDirichletBCParam( &
    & param=param, &
    & name="Vx=0", &
    & idof=1, &
    & nodalValueType=Constant, &
    & useFunction=.FALSE.)

Add dirichlet boundary condition to kernel [[STDBE511_#AddVelocityDirichletBC]], [[STDBE511_#GetVelocityDirichletBCPointer]]

  CALL obj%AddVelocityDirichletBC(dbcNo=1, param=param, boundary=region)
  dbc => obj%GetVelocityDirichletBCPointer(dbcNo=1)
  CALL dbc%Set(ConstantNodalValue=0.0_DFP)
  dbc => NULL()
  CALL region%Deallocate()

Vy=0

  CALL SetDirichletBCParam( &
    & param=param, &
    & name="Vy=0", &
    & idof=2, &
    & nodalValueType=Constant, &
    & useFunction=.FALSE.)

  CALL region%Initiate(isSelectionByMeshID=.TRUE.)
  CALL region%Add(dim=obj%nsd-1, meshID=[1,2,3,4,5,6])
  CALL region%Set()

  CALL obj%AddVelocityDirichletBC(dbcNo=2, param=param, boundary=region)
  dbc => obj%GetVelocityDirichletBCPointer(dbcNo=2)
  CALL dbc%Set(ConstantNodalValue=0.0_DFP)
  dbc => NULL()
  CALL region%Deallocate()

Vx=Vtop

  CALL SetDirichletBCParam( &
    & param=param, &
    & name="Vx=V", &
    & idof=1, &
    & nodalValueType=Constant, &
    & useFunction=.FALSE.)

  CALL region%Initiate(isSelectionByMeshID=.TRUE.)
  CALL region%Add(dim=obj%nsd-1, meshID=[4])
  CALL region%Set()

  CALL obj%AddVelocityDirichletBC(dbcNo=3, param=param, boundary=region)
  dbc => obj%GetVelocityDirichletBCPointer(dbcNo=3)
  CALL dbc%Set(ConstantNodalValue=V_TOP)
  dbc => NULL()
  CALL region%Deallocate()

Pressure boundary condition

Usually, we do not apply Dirichlet boundary condition for pressure.

  IF( tDirichletBCForPressure .GT. 0 ) THEN
    CALL SetDirichletBCParam( &
      & param=param, &
      & name="P=0", &
      & idof=1, &
      & nodalValueType=Constant, &
      & useFunction=.FALSE.)
    CALL region%Initiate( &
      & isSelectionByNodeNum=.TRUE. )
    CALL region%Add( nodenum=[refPressureNode])
    CALL region%Set()
    !!
    CALL obj%AddPressureDirichletBC(dbcNo=1, param=param, boundary=region)
    CALL region%Deallocate()
    dbc => obj%GetPressureDirichletBCPointer(dbcNo=1)
    CALL dbc%Set(ConstantNodalValue=0.0_DFP)
    dbc => NULL()
  END IF

Set

CALL obj%Set( )

Next

• [[STDBE511_test_5#MainComputation]]

END PROGRAM main