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@ -44,21 +44,21 @@ submodule(phase) thermal
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me
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end subroutine externalheat_dotState
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module subroutine thermal_dissipation_getRate(TDot, ph,me)
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module subroutine dissipation_getRate(TDot, ph,me)
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integer, intent(in) :: &
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ph, &
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me
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real(pReal), intent(out) :: &
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TDot
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end subroutine thermal_dissipation_getRate
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end subroutine dissipation_getRate
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module subroutine thermal_externalheat_getRate(TDot, ph,me)
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module subroutine externalheat_getRate(TDot, ph,me)
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integer, intent(in) :: &
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ph, &
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me
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real(pReal), intent(out) :: &
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TDot
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end subroutine thermal_externalheat_getRate
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end subroutine externalheat_getRate
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end interface
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@ -149,10 +149,10 @@ module subroutine constitutive_thermal_getRate(TDot, ph,me)
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do so = 1, thermal_Nsources(ph)
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select case(thermal_source(so,ph))
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case (THERMAL_DISSIPATION_ID)
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call thermal_dissipation_getRate(my_Tdot, ph,me)
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call dissipation_getRate(my_Tdot, ph,me)
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case (THERMAL_EXTERNALHEAT_ID)
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call thermal_externalheat_getRate(my_Tdot, ph,me)
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call externalheat_getRate(my_Tdot, ph,me)
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case default
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my_Tdot = 0.0_pReal
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@ -70,7 +70,7 @@ end function dissipation_init
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!--------------------------------------------------------------------------------------------------
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!> @brief Ninstancess dissipation rate
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!--------------------------------------------------------------------------------------------------
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module subroutine thermal_dissipation_getRate(TDot, ph,me)
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module subroutine dissipation_getRate(TDot, ph,me)
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integer, intent(in) :: ph, me
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real(pReal), intent(out) :: &
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@ -81,6 +81,6 @@ module subroutine thermal_dissipation_getRate(TDot, ph,me)
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TDot = prm%kappa*sum(abs(mech_S(ph,me)*mech_L_p(ph,me)))
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end associate
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end subroutine thermal_dissipation_getRate
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end subroutine dissipation_getRate
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end submodule dissipation
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@ -8,8 +8,7 @@ submodule(phase:thermal) externalheat
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integer, dimension(:), allocatable :: &
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source_thermal_externalheat_offset, & !< which source is my current thermal dissipation mechanism?
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source_thermal_externalheat_instance !< instance of thermal dissipation source mechanism
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source_thermal_externalheat_offset !< which source is my current thermal dissipation mechanism?
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type :: tParameters !< container type for internal constitutive parameters
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real(pReal), dimension(:), allocatable :: &
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@ -39,7 +38,7 @@ module function externalheat_init(source_length) result(mySources)
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phase, &
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sources, thermal, &
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src
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integer :: Ninstances,so,Nconstituents,p
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integer :: Ninstances,so,Nconstituents,ph
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print'(/,a)', ' <<<+- thermal_externalheat init -+>>>'
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@ -50,20 +49,18 @@ module function externalheat_init(source_length) result(mySources)
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if(Ninstances == 0) return
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phases => config_material%get('phase')
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allocate(param(Ninstances))
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allocate(param(phases%length))
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allocate(source_thermal_externalheat_offset (phases%length), source=0)
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allocate(source_thermal_externalheat_instance(phases%length), source=0)
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do p = 1, phases%length
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phase => phases%get(p)
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if(any(mySources(:,p))) source_thermal_externalheat_instance(p) = count(mySources(:,1:p))
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if(count(mySources(:,p)) == 0) cycle
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do ph = 1, phases%length
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phase => phases%get(ph)
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if(count(mySources(:,ph)) == 0) cycle
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thermal => phase%get('thermal')
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sources => thermal%get('source')
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do so = 1, sources%length
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if(mySources(so,p)) then
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source_thermal_externalheat_offset(p) = so
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associate(prm => param(source_thermal_externalheat_instance(p)))
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if(mySources(so,ph)) then
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source_thermal_externalheat_offset(ph) = so
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associate(prm => param(ph))
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src => sources%get(so)
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prm%t_n = src%get_asFloats('t_n')
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@ -71,8 +68,8 @@ module function externalheat_init(source_length) result(mySources)
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prm%f_T = src%get_asFloats('f_T',requiredSize = size(prm%t_n))
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Nconstituents = count(material_phaseAt==p) * discretization_nIPs
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call constitutive_allocateState(thermalState(p)%p(so),Nconstituents,1,1,0)
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Nconstituents = count(material_phaseAt2 == ph)
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call constitutive_allocateState(thermalState(ph)%p(so),Nconstituents,1,1,0)
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end associate
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endif
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enddo
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@ -104,7 +101,7 @@ end subroutine externalheat_dotState
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!--------------------------------------------------------------------------------------------------
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!> @brief returns local heat generation rate
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!--------------------------------------------------------------------------------------------------
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module subroutine thermal_externalheat_getRate(TDot, ph, me)
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module subroutine externalheat_getRate(TDot, ph, me)
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integer, intent(in) :: &
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ph, &
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@ -119,7 +116,7 @@ module subroutine thermal_externalheat_getRate(TDot, ph, me)
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so = source_thermal_externalheat_offset(ph)
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associate(prm => param(source_thermal_externalheat_instance(ph)))
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associate(prm => param(ph))
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do interval = 1, prm%nIntervals ! scan through all rate segments
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frac_time = (thermalState(ph)%p(so)%state(1,me) - prm%t_n(interval)) &
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/ (prm%t_n(interval+1) - prm%t_n(interval)) ! fractional time within segment
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@ -132,6 +129,6 @@ module subroutine thermal_externalheat_getRate(TDot, ph, me)
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enddo
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end associate
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end subroutine thermal_externalheat_getRate
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end subroutine externalheat_getRate
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end submodule externalheat
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