201 lines
6.2 KiB
Fortran
201 lines
6.2 KiB
Fortran
!--------------------------------------------------------------------------------------------------
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!> @author Martin Diehl, KU Leuven
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!--------------------------------------------------------------------------------------------------
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submodule(homogenization) thermal
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interface
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module subroutine pass_init
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end subroutine pass_init
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module subroutine isotemperature_init
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end subroutine isotemperature_init
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end interface
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type :: tDataContainer
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real(pReal), dimension(:), allocatable :: T, dot_T
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end type tDataContainer
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type(tDataContainer), dimension(:), allocatable :: current
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type :: tParameters
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character(len=pStringLen), allocatable, dimension(:) :: &
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output
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end type tParameters
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type(tparameters), dimension(:), allocatable :: &
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param
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contains
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!--------------------------------------------------------------------------------------------------
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!> @brief Allocate variables and set parameters.
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!--------------------------------------------------------------------------------------------------
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module subroutine thermal_init()
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type(tDict), pointer :: &
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configHomogenizations, &
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configHomogenization, &
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configHomogenizationThermal
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integer :: ho
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print'(/,1x,a)', '<<<+- homogenization:thermal init -+>>>'
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configHomogenizations => config_material%get_dict('homogenization')
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allocate(param(configHomogenizations%length))
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allocate(current(configHomogenizations%length))
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do ho = 1, configHomogenizations%length
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allocate(current(ho)%T(count(material_homogenizationID==ho)), source=T_ROOM)
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allocate(current(ho)%dot_T(count(material_homogenizationID==ho)), source=0.0_pReal)
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configHomogenization => configHomogenizations%get_dict(ho)
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associate(prm => param(ho))
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if (configHomogenization%contains('thermal')) then
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configHomogenizationThermal => configHomogenization%get_dict('thermal')
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#if defined (__GFORTRAN__)
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prm%output = output_as1dString(configHomogenizationThermal)
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#else
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prm%output = configHomogenizationThermal%get_as1dString('output',defaultVal=emptyStringArray)
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#endif
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select case (configHomogenizationThermal%get_asString('type'))
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case ('pass')
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call pass_init()
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case ('isotemperature')
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call isotemperature_init()
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end select
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else
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prm%output = emptyStringArray
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end if
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end associate
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end do
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end subroutine thermal_init
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!--------------------------------------------------------------------------------------------------
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!> @brief Partition temperature onto the individual constituents.
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!--------------------------------------------------------------------------------------------------
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module subroutine thermal_partition(ce)
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integer, intent(in) :: ce
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real(pReal) :: T, dot_T
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integer :: co
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T = current(material_homogenizationID(ce))%T(material_homogenizationEntry(ce))
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dot_T = current(material_homogenizationID(ce))%dot_T(material_homogenizationEntry(ce))
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do co = 1, homogenization_Nconstituents(material_homogenizationID(ce))
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call phase_thermal_setField(T,dot_T,co,ce)
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end do
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end subroutine thermal_partition
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!--------------------------------------------------------------------------------------------------
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!> @brief Homogenize thermal viscosity.
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!--------------------------------------------------------------------------------------------------
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module function homogenization_mu_T(ce) result(mu)
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integer, intent(in) :: ce
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real(pReal) :: mu
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integer :: co
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mu = phase_mu_T(1,ce)*material_v(1,ce)
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do co = 2, homogenization_Nconstituents(material_homogenizationID(ce))
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mu = mu + phase_mu_T(co,ce)*material_v(co,ce)
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end do
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end function homogenization_mu_T
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!--------------------------------------------------------------------------------------------------
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!> @brief Homogenize thermal conductivity.
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!--------------------------------------------------------------------------------------------------
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module function homogenization_K_T(ce) result(K)
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integer, intent(in) :: ce
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real(pReal), dimension(3,3) :: K
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integer :: co
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K = phase_K_T(1,ce)*material_v(1,ce)
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do co = 2, homogenization_Nconstituents(material_homogenizationID(ce))
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K = K + phase_K_T(co,ce)*material_v(co,ce)
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end do
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end function homogenization_K_T
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!--------------------------------------------------------------------------------------------------
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!> @brief Homogenize heat generation rate.
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!--------------------------------------------------------------------------------------------------
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module function homogenization_f_T(ce) result(f)
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integer, intent(in) :: ce
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real(pReal) :: f
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integer :: co
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f = phase_f_T(material_phaseID(1,ce),material_phaseEntry(1,ce))*material_v(1,ce)
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do co = 2, homogenization_Nconstituents(material_homogenizationID(ce))
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f = f + phase_f_T(material_phaseID(co,ce),material_phaseEntry(co,ce))*material_v(co,ce)
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end do
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end function homogenization_f_T
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!--------------------------------------------------------------------------------------------------
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!> @brief Set thermal field and its rate (T and dot_T).
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!--------------------------------------------------------------------------------------------------
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module subroutine homogenization_thermal_setField(T,dot_T, ce)
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integer, intent(in) :: ce
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real(pReal), intent(in) :: T, dot_T
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current(material_homogenizationID(ce))%T(material_homogenizationEntry(ce)) = T
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current(material_homogenizationID(ce))%dot_T(material_homogenizationEntry(ce)) = dot_T
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call thermal_partition(ce)
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end subroutine homogenization_thermal_setField
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!--------------------------------------------------------------------------------------------------
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!> @brief writes results to HDF5 output file
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!--------------------------------------------------------------------------------------------------
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module subroutine thermal_results(ho,group)
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integer, intent(in) :: ho
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character(len=*), intent(in) :: group
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integer :: o
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associate(prm => param(ho))
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outputsLoop: do o = 1,size(prm%output)
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select case(trim(prm%output(o)))
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case('T')
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call results_writeDataset(current(ho)%T,group,'T','temperature','K')
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end select
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end do outputsLoop
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end associate
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end subroutine thermal_results
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end submodule thermal
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