ModeratorHeatSourceTransientAux

construction:Undocumented Class

The ModeratorHeatSourceTransientAux has not been documented. The content listed below should be used as a starting point for documenting the class, which includes the typical automatic documentation associated with a MooseObject; however, what is contained is ultimately determined by what is necessary to make the documentation clear for users.

Overview

Example Input File Syntax

Input Parameters

average_fission_heatThe average fission heat being generated in the fuel portion of the reactor.
C++ Type:PostprocessorName
Unit:(no unit assumed)
Controllable:No
Description:The average fission heat being generated in the fuel portion of the reactor.
gammaThe ratio of power density generated in the moderator vs. the fuel.
C++ Type:FunctionName
Unit:(no unit assumed)
Controllable:No
Description:The ratio of power density generated in the moderator vs. the fuel.
variableThe name of the variable that this object applies to
C++ Type:AuxVariableName
Unit:(no unit assumed)
Controllable:No
Description:The name of the variable that this object applies to

Required Parameters

blockThe list of blocks (ids or names) that this object will be applied
C++ Type:std::vector<SubdomainName>
Unit:(no unit assumed)
Controllable:No
Description:The list of blocks (ids or names) that this object will be applied
boundaryThe list of boundaries (ids or names) from the mesh where this object applies
C++ Type:std::vector<BoundaryName>
Unit:(no unit assumed)
Controllable:No
Description:The list of boundaries (ids or names) from the mesh where this object applies
check_boundary_restrictedTrueWhether to check for multiple element sides on the boundary in the case of a boundary restricted, element aux variable. Setting this to false will allow contribution to a single element's elemental value(s) from multiple boundary sides on the same element (example: when the restricted boundary exists on two or more sides of an element, such as at a corner of a mesh
Default:True
C++ Type:bool
Unit:(no unit assumed)
Controllable:No
Description:Whether to check for multiple element sides on the boundary in the case of a boundary restricted, element aux variable. Setting this to false will allow contribution to a single element's elemental value(s) from multiple boundary sides on the same element (example: when the restricted boundary exists on two or more sides of an element, such as at a corner of a mesh
execute_onLINEAR TIMESTEP_ENDThe list of flag(s) indicating when this object should be executed. For a description of each flag, see https://mooseframework.inl.gov/source/interfaces/SetupInterface.html.
Default:LINEAR TIMESTEP_END
C++ Type:ExecFlagEnum
Unit:(no unit assumed)
Options:NONE, INITIAL, LINEAR, NONLINEAR_CONVERGENCE, NONLINEAR, POSTCHECK, TIMESTEP_END, TIMESTEP_BEGIN, MULTIAPP_FIXED_POINT_END, MULTIAPP_FIXED_POINT_BEGIN, FINAL, CUSTOM, PRE_DISPLACE
Controllable:No
Description:The list of flag(s) indicating when this object should be executed. For a description of each flag, see https://mooseframework.inl.gov/source/interfaces/SetupInterface.html.
prop_getter_suffixAn optional suffix parameter that can be appended to any attempt to retrieve/get material properties. The suffix will be prepended with a '_' character.
C++ Type:MaterialPropertyName
Unit:(no unit assumed)
Controllable:No
Description:An optional suffix parameter that can be appended to any attempt to retrieve/get material properties. The suffix will be prepended with a '_' character.
use_interpolated_stateFalseFor the old and older state use projected material properties interpolated at the quadrature points. To set up projection use the ProjectedStatefulMaterialStorageAction.
Default:False
C++ Type:bool
Unit:(no unit assumed)
Controllable:No
Description:For the old and older state use projected material properties interpolated at the quadrature points. To set up projection use the ProjectedStatefulMaterialStorageAction.

Optional Parameters

control_tagsAdds user-defined labels for accessing object parameters via control logic.
C++ Type:std::vector<std::string>
Unit:(no unit assumed)
Controllable:No
Description:Adds user-defined labels for accessing object parameters via control logic.
enableTrueSet the enabled status of the MooseObject.
Default:True
C++ Type:bool
Unit:(no unit assumed)
Controllable:Yes
Description:Set the enabled status of the MooseObject.
seed0The seed for the master random number generator
Default:0
C++ Type:unsigned int
Unit:(no unit assumed)
Controllable:No
Description:The seed for the master random number generator
use_displaced_meshFalseWhether or not this object should use the displaced mesh for computation. Note that in the case this is true but no displacements are provided in the Mesh block the undisplaced mesh will still be used.
Default:False
C++ Type:bool
Unit:(no unit assumed)
Controllable:No
Description:Whether or not this object should use the displaced mesh for computation. Note that in the case this is true but no displacements are provided in the Mesh block the undisplaced mesh will still be used.

Advanced Parameters

Input Files

(problems/2017_annals_pub_msre_compare/auto_diff_rho.i)
(problems/single_msre_channel_velocity_heat_nts/heat-nts-single-unit-cell.i)
(problems/033117_nts_temp_pre_parsed_mat/auto_diff_rho.i)
(problems/033117_nts_temp_pre_parsed_mat/auto_diff_rho_control.i)
(problems/033117_nts_temp_pre_parsed_mat/3d_single_pin_velocity_function_moderator_heating.i)
(problems/publication_level_cases/dilute_absorber_controlled_by_peak_power_density/in.i)
(problems/2017_annals_pub_msre_compare/4group.i)
(problems/single_msre_channel_velocity_heat_nts/heat-nts-single-channel-msre-dimensions.i)
(problems/072017_dg_temperature/auto_diff_rho.i)
(problems/2017_annals_pub_msre_compare/2group.i)
(problems/033117_nts_temp_pre_parsed_mat/controlled_neutronics_only.i)
(problems/single_msre_channel_velocity_heat_nts/unit-cell-heat-and-nts.i)
(problems/constant_inlet_outlet_temp_no_heat_flux_at_walls/auto_diff_rho.i)

(problems/2017_annals_pub_msre_compare/auto_diff_rho.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13
ini_temp = 922
diri_temp = 922
gamma_frac = .075
R = 70.1675
H = 162.56

[GlobalParams]
  num_groups = 4
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2 group3 group4'
  temperature = temp
  sss2_input = true
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  nt_scale = ${nt_scale}
[]

[Mesh]
  coord_type = RZ
  file = '2d_lattice_structured.msh'
[]

[Variables]
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  [pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    loop_precursors = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  []
[]

[Nt]
  var_name_base = group
  vacuum_boundaries = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
  create_temperature_var = false
  scaling = 1e-4
  pre_blocks = 'fuel'
[]

[Kernels]
  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
    gamma = gamma_func
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [temp_diri_cg]
    boundary = 'fuel_bottoms outer_wall'
    type = FlexiblePostprocessorDirichletBC
    postprocessor = coreEndTemp
    offset = -27.8
    variable = temp
  []
  # [./temp_diri_cg]
  #   boundary = 'moder_bottoms fuel_bottoms outer_wall'
  #   type = FunctionDirichletBC
  #   function = 'temp_bc_func'
  #   variable = temp
  # [../]
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
    gamma = gamma_func
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
  [gamma_func]
    type = ParsedFunction
    expression = '${gamma_frac} * pi^2 / 4 * cos(pi * x / (2. * ${R})) * sin(pi * y / ${H})'
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../tutorial/step01_groupConstants/MSREProperties/msre_gentry_4g_fuel_rod0_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../tutorial/step01_groupConstants/MSREProperties/msre_gentry_4g_moder_rod0_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  [TimeStepper]
    type = PostprocessorDT
    postprocessor = limit_k
    dt = 1e-3
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
  [coreEndTemp]
    type = SideAverageValue
    variable = temp
    boundary = 'fuel_tops'
    outputs = 'csv console'
    execute_on = 'linear nonlinear'
  []
  [limit_k]
    type = LimitK
    execute_on = 'timestep_end'
    k_postprocessor = multiplication
    growth_factor = 1.2
    cutback_factor = .4
    k_threshold = 1.5
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
[]

[Debug]
  show_var_residual_norms = true
[]

(problems/single_msre_channel_velocity_heat_nts/heat-nts-single-unit-cell.i)

# This input file tests outflow boundary conditions for the incompressible NS equations.
width = 3.048
height = 1.016
length = 162.56
nt_scale=1e13

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  sss2_input = false
  account_delayed = false
  temperature = temp
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = msre_squares.msh
[]


[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    # scaling = 1e4
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    # scaling = 1e4
  [../]
  [./temp]
    order = FIRST
    family = LAGRANGE
  [../]
[]

[AuxVariables]
  [./vel_x]
    block = 'fuel'
  [../]
  [./vel_y]
    block = 'fuel'
  [../]
  [./vel_z]
    block = 'fuel'
  [../]
  [./p]
    block = 'fuel'
  [../]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

# [Precursors]
#   var_name_base = pre
#   block = 'fuel'
#   outlet_boundaries = 'fuel_top'
#   u_func = vel_x_func
#   v_func = vel_y_func
#   w_func = vel_z_func
#   constant_velocity_values = false
#   nt_exp_form = false
#   family = MONOMIAL
#   order = CONSTANT
#   # jac_test = true
# []

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  # [./delayed_group1]
  #   type = DelayedNeutronSource
  #   variable = group1
  # [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]

  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  [./temp_fuel_transport]
    type = INSTemperature
    u = vel_x
    v = vel_y
    w = vel_z
    variable = temp
    block = 'fuel'
  [../]
  [./temp_mod_transport]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
    block = 'moderator'
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moderator'
    average_fission_heat = 'average_fission_heat'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moderator'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[BCs]
  [./temp_inlet]
    boundary = 'fuel_bottom'
    variable = temp
    value = 900
    type = DirichletBC
  [../]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottom fuel_top moderator_bottoms moderator_tops'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottom fuel_top moderator_bottoms moderator_tops'
    variable = group2
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp rho'
    prop_values = '.0553 1967 2.146e-3' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-4
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp rho'
    prop_values = '.312 1760 1.86e-3' # Cammi 2011 at 908 K
    block = 'moderator'
    peak_power_density = peak_power_density
    controller_gain = 0
  [../]
[]

[Debug]
  show_var_residual_norms = true
[]

[Preconditioning]
  [./SMP_PJFNK]
    type = SMP
    full = true
    solve_type = PJFNK
    ksp_norm = none
  [../]
[]

# [Executioner]
#   # type = Steady
#   type = Transient
#   dt = 1
#   num_steps = 1
#   petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
#   petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
#   petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
#   # line_search = none
#   nl_rel_tol = 1e-8
#   nl_max_its = 50
#   l_max_its = 300
# []

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 1e-6

  solve_type = 'NEWTON'
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  # petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  # petsc_options_value = 'asm      lu           1               preonly       1e-3'
  petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  nl_max_its = 30
  l_max_its = 200

#   dtmax = 1
  dtmin = 1e-5
  # dt = 1e-3
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
    linear_iteration_ratio = 1000
  [../]
[]

[Outputs]
  perf_graph = true
  exodus = true
  csv = true
  file_base = 'out'
[]

[Functions]
  [./nt_ic]
    type = ParsedFunction
    value = '10 * sin(pi * z / ${length})'
  [../]
  [./temp_ic]
    type = ParsedFunction
    value = '900 + 100 / ${length} * z'
  [../]
[]

[ICs]
  [./temp]
    type = FunctionIC
    variable = temp
    function = temp_ic
  [../]
  [./group1]
    type = FunctionIC
    variable = group1
    function = nt_ic
  [../]
  [./group2]
    type = FunctionIC
    variable = group2
    function = nt_ic
  [../]
[]

[MultiApps]
  [./sub]
    type = FullSolveMultiApp
    app_type = MoltresApp
    positions = '0 0 0'
    input_files = solution_aux_exodus.i
    execute_on = 'initial'
  [../]
[]

[Transfers]
  [./vel_x]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_x
    variable = vel_x
    execute_on = 'initial'
  [../]
  [./vel_y]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_y
    variable = vel_y
    execute_on = 'initial'
  [../]
  [./vel_z]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_z
    variable = vel_z
    execute_on = 'initial'
  [../]
  [./p]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = p
    variable = p
    execute_on = 'initial'
  [../]
[]

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moderator'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'console'
    block = 'fuel'
  [../]
  [./peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear timestep_begin'
  [../]
[]

(problems/033117_nts_temp_pre_parsed_mat/auto_diff_rho.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13
ini_temp = 922
diri_temp = 922

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
  # file = 2d_split_mesh/auto_diff_rho_in.e
  # file = auto_diff_rho_in.e
  # nemesis = true
  # parallel_type = DISTRIBUTED
[]

[Problem]
  coord_type = RZ
[]

[Variables]
  [group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
  [group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  var_name_base = pre
  block = 'fuel'
  outlet_boundaries = 'fuel_tops'
  u_def = 0
  v_def = ${flow_velocity}
  w_def = 0
  nt_exp_form = false
  family = MONOMIAL
  order = CONSTANT
  # jac_test = true
[]

[Kernels]
  # Neutronics
  [time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  []
  [diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  []
  [sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  []
  [fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  []
  [delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  []
  [inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  []
  [diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  []
  [sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  []
  [time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  []
  [fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  []
  [inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  []

  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  []
  [vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  []
  [temp_diri_cg]
    boundary = 'moder_bottoms fuel_bottoms outer_wall'
    type = FunctionDirichletBC
    function = 'temp_bc_func'
    variable = temp
  []
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'NEWTON'
  # solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  # petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  # petsc_options_value = 'asm      lu           1               preonly       1e-3'
  petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  # dtmax = 1
  # dt = 1e-3
  [TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
    ksp_norm = none
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  # exodus = true
  nemesis = true
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/033117_nts_temp_pre_parsed_mat/auto_diff_rho_control.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13
ini_temp = 922
diri_temp = 922

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
  # file = 2d_split_mesh/auto_diff_rho_in.e
  # file = auto_diff_rho_in.e
  # nemesis = true
  # parallel_type = DISTRIBUTED
[]

[Problem]
  coord_type = RZ
[]

[Variables]
  [group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
  [group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  [pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  []
[]

[Kernels]
  # Neutronics
  [time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  []
  [diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  []
  [sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  []
  [fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  []
  [delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  []
  [inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  []
  [diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  []
  [sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  []
  [time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  []
  [fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  []
  [inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  []

  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  []
  [vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  []
  [temp_diri_cg]
    boundary = 'moder_bottoms fuel_bottoms outer_wall'
    type = FunctionDirichletBC
    function = 'temp_bc_func'
    variable = temp
  []
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-4
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    peak_power_density = peak_power_density
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  # dtmax = 1
  # dt = 1e-3
  [TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
  [peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
  # nemesis = true
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/033117_nts_temp_pre_parsed_mat/3d_single_pin_velocity_function_moderator_heating.i)

# flow_velocity=21.7 # cm/s. See MSRE-properties.ods
fuel_velocity_max_inlet = 43.4
fuel_sq_rad = 33.28
nt_scale = 1e13
ini_temp = 922
diri_temp = 922

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  sss2_input = false
  account_delayed = true
  temperature = temp
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '3d_single_unit_msre_vol_fraction.msh'
  # file = jac_test.msh
[]

[Problem]
[]

[Variables]
  [group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    # scaling = 1e4
  []
  [group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    # scaling = 1e4
  []
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  var_name_base = pre
  block = 'fuel'
  outlet_boundaries = 'fuel_tops'
  u_func = vel_x_func
  v_func = vel_y_func
  w_func = vel_z_func
  constant_velocity_values = false
  nt_exp_form = false
  family = MONOMIAL
  order = CONSTANT
  # jac_test = true
[]

[Kernels]
  # Neutronics
  [time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  []
  [diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  []
  [sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  []
  [fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  []
  [delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  []
  [inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  []
  [diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  []
  [sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  []
  [time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  []
  [fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  []
  [inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  []

  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = VelocityFunctionTemperatureAdvection
    vel_x_func = vel_x_func
    vel_y_func = vel_y_func
    vel_z_func = vel_z_func
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops moder_sides'
    variable = group1
  []
  [vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops moder_sides'
    variable = group2
  []
  [temp_diri_cg]
    boundary = 'moder_bottoms fuel_bottoms moder_sides'
    type = FunctionDirichletBC
    function = 'temp_bc_func'
    variable = temp
  []
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = VelocityFunctionTemperatureOutflowBC
    variable = temp
    vel_x_func = vel_x_func
    vel_y_func = vel_y_func
    vel_z_func = vel_z_func
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
  [vel_x_func]
    type = ParsedFunction
    expression = '0'
  []
  [vel_y_func]
    type = ParsedFunction
    expression = '0'
  []
  [vel_z_func]
    type = ParsedFunction
    expression = '${fuel_velocity_max_inlet} * cos(pi * x / (2 * ${fuel_sq_rad})) * cos(pi * y / (2 * ${fuel_sq_rad}))'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'monotone_cubic'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-4
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'monotone_cubic'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    peak_power_density = peak_power_density
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 100000

  nl_rel_tol = 1e-6
  nl_abs_tol = 1e-6

  solve_type = 'PJFNK'
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'asm      lu           1               preonly       1e-3'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  nl_max_its = 30
  l_max_its = 200
  line_search = none

  #   dtmax = 1
  dtmin = 1e-5
  # dt = 1e-3
  [TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
    linear_iteration_ratio = 1000
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'console'
    block = 'fuel'
  []
  [peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear timestep_begin'
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/publication_level_cases/dilute_absorber_controlled_by_peak_power_density/in.i)

flow_velocity=21.7 # cm/s. See MSRE-properties.ods
nt_scale=1e13
ini_temp=922
diri_temp=922

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
  # file = 2d_split_mesh/auto_diff_rho_in.e
  # file = auto_diff_rho_in.e
  # nemesis = true
  # parallel_type = DISTRIBUTED
[../]

[Problem]
  coord_type = RZ
[]

[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  [../]
[]

[AuxVariables]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

[Precursors]
  [./pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  [../]
[]

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  [./delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]

  # Temperature
  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  [../]
  [./temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  [../]
  [./temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  [../]
[]

[BCs]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  [../]
  [./temp_diri_cg]
    boundary = 'moder_bottoms fuel_bottoms outer_wall'
    type = FunctionDirichletBC
    function = 'temp_bc_func'
    variable = temp
  [../]
  [./temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[Functions]
  [./temp_bc_func]
    type = ParsedFunction
    value = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-4
  [../]
  [./rho_fuel]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'fuel'
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    peak_power_density = peak_power_density
    controller_gain = 0
  [../]
  [./rho_moder]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'moder'
  [../]
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  # dtmax = 1
  # dt = 1e-3
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  [../]
[]

[Preconditioning]
  [./SMP]
    type = SMP
    full = true
  [../]
[]

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  [../]
  [./peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
  [../]
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
  # nemesis = true
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/2017_annals_pub_msre_compare/4group.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13
ini_temp = 922
diri_temp = 922
gamma_frac = .075
R = 73
H = 162.56

[GlobalParams]
  num_groups = 4
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2 group3 group4'
  temperature = temp
  sss2_input = true
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  nt_scale = ${nt_scale}
[]

[Mesh]
  coord_type = RZ
  file = '2d_lattice_structured.msh'
[]

[Variables]
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  [pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    loop_precursors = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  []
[]

[Nt]
  var_name_base = group
  vacuum_boundaries = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
  create_temperature_var = false
  scaling = 1e-4
  pre_blocks = 'fuel'
[]

[Kernels]
  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
    gamma = gamma_func
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [temp_diri_cg]
    boundary = 'fuel_bottoms outer_wall'
    type = FlexiblePostprocessorDirichletBC
    postprocessor = coreEndTemp
    offset = -27.8
    variable = temp
  []
  # [./temp_diri_cg]
  #   boundary = 'moder_bottoms fuel_bottoms outer_wall'
  #   type = FunctionDirichletBC
  #   function = 'temp_bc_func'
  #   variable = temp
  # [../]
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
    gamma = gamma_func
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
  [gamma_func]
    type = ParsedFunction
    expression = '${gamma_frac} * pi^2 / 4 * cos(pi * x / (2. * ${R})) * sin(pi * y / ${H})'
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../tutorial/step01_groupConstants/MSREProperties/msre_gentry_4g_fuel_rod0_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../tutorial/step01_groupConstants/MSREProperties/msre_gentry_4g_moder_rod0_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  [TimeStepper]
    type = PostprocessorDT
    postprocessor = limit_k
    dt = 1e-3
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
  [coreEndTemp]
    type = SideAverageValue
    variable = temp
    boundary = 'fuel_tops'
    outputs = 'csv console'
    execute_on = 'linear nonlinear'
  []
  [limit_k]
    type = LimitK
    execute_on = 'timestep_end'
    k_postprocessor = multiplication
    growth_factor = 1.2
    cutback_factor = .4
    k_threshold = 1.5
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
[]

[Debug]
  show_var_residual_norms = true
[]

(problems/single_msre_channel_velocity_heat_nts/heat-nts-single-channel-msre-dimensions.i)

# This input file tests outflow boundary conditions for the incompressible NS equations.
width = 3.048
height = 1.016
length = 162.56
nt_scale=1e13

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  sss2_input = false
  account_delayed = false
  temperature = temp
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = single_channel_msre_dimensions.msh
[]


[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    # scaling = 1e4
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    # scaling = 1e4
  [../]
  [./temp]
    order = FIRST
    family = LAGRANGE
  [../]
[]

[AuxVariables]
  [./vel_x]
    block = 'fuel'
  [../]
  [./vel_y]
    block = 'fuel'
  [../]
  [./vel_z]
    block = 'fuel'
  [../]
  [./p]
    block = 'fuel'
  [../]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

# [Precursors]
#   var_name_base = pre
#   block = 'fuel'
#   outlet_boundaries = 'fuel_top'
#   u_func = vel_x_func
#   v_func = vel_y_func
#   w_func = vel_z_func
#   constant_velocity_values = false
#   nt_exp_form = false
#   family = MONOMIAL
#   order = CONSTANT
#   # jac_test = true
# []

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  # [./delayed_group1]
  #   type = DelayedNeutronSource
  #   variable = group1
  # [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]

  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  [./temp_fuel_transport]
    type = INSTemperature
    u = vel_x
    v = vel_y
    w = vel_z
    variable = temp
    block = 'fuel'
  [../]
  [./temp_mod_transport]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
    block = 'moderator'
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moderator'
    average_fission_heat = 'average_fission_heat'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moderator'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[BCs]
  [./temp_inlet]
    boundary = 'fuel_bottom'
    variable = temp
    value = 900
    type = DirichletBC
  [../]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottom fuel_top moderator_bottoms moderator_tops'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottom fuel_top moderator_bottoms moderator_tops'
    variable = group2
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp rho'
    prop_values = '.0553 1967 2.146e-3' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-4
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp rho'
    prop_values = '.312 1760 1.86e-3' # Cammi 2011 at 908 K
    block = 'moderator'
    peak_power_density = peak_power_density
    controller_gain = 0
  [../]
[]

[Debug]
  show_var_residual_norms = true
[]

[Preconditioning]
  [./SMP_PJFNK]
    type = SMP
    full = true
    solve_type = PJFNK
    ksp_norm = none
  [../]
[]

# [Executioner]
#   # type = Steady
#   type = Transient
#   dt = 1
#   num_steps = 1
#   petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
#   petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
#   petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
#   # line_search = none
#   nl_rel_tol = 1e-8
#   nl_max_its = 50
#   l_max_its = 300
# []

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 1e-6

  solve_type = 'NEWTON'
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  # petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  # petsc_options_value = 'asm      lu           1               preonly       1e-3'
  petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  nl_max_its = 30
  l_max_its = 200

#   dtmax = 1
  dtmin = 1e-5
  # dt = 1e-3
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
    linear_iteration_ratio = 1000
  [../]
[]

[Outputs]
  perf_graph = true
  exodus = true
  csv = true
  file_base = 'out'
[]

[Functions]
  [./nt_ic]
    type = ParsedFunction
    value = '10 * sin(pi * z / ${length})'
  [../]
  [./temp_ic]
    type = ParsedFunction
    value = '900 + 100 / ${length} * z'
  [../]
[]

[ICs]
  [./temp]
    type = FunctionIC
    variable = temp
    function = temp_ic
  [../]
  [./group1]
    type = FunctionIC
    variable = group1
    function = nt_ic
  [../]
  [./group2]
    type = FunctionIC
    variable = group2
    function = nt_ic
  [../]
[]

[MultiApps]
  [./sub]
    type = FullSolveMultiApp
    app_type = MoltresApp
    positions = '0 0 0'
    input_files = solution_aux_exodus.i
    execute_on = 'initial'
  [../]
[]

[Transfers]
  [./vel_x]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_x
    variable = vel_x
    execute_on = 'initial'
  [../]
  [./vel_y]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_y
    variable = vel_y
    execute_on = 'initial'
  [../]
  [./vel_z]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = vel_z
    variable = vel_z
    execute_on = 'initial'
  [../]
  [./p]
    type = MultiAppNearestNodeTransfer
    direction = from_multiapp
    multi_app = sub
    source_variable = p
    variable = p
    execute_on = 'initial'
  [../]
[]

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moderator'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'console'
    block = 'fuel'
  [../]
  [./peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear timestep_begin'
  [../]
[]

(problems/072017_dg_temperature/auto_diff_rho.i)

flow_velocity=21.7 # cm/s. See MSRE-properties.ods
nt_scale=1e13
ini_temp=922
diri_temp=922
sigma_val=.6

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
[]

[Problem]
  coord_type = RZ
[]

[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
    order = FIRST
    family = MONOMIAL
  [../]
[]

[AuxVariables]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

[Precursors]
  [./pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  [../]
[]

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  [./delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]

  # Temperature
  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  [../]
  [./temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  [../]
  [./temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  [../]
[]

[DGKernels]
  [./temp_advection_fuel]
    block = 'fuel'
    type = DGTemperatureAdvection
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  [../]
  [./temp_diffusion]
    type = DGDiffusion
    variable = temp
    sigma = ${sigma_val}
    epsilon = -1
    diff = 'k'
  [../]
[]

[BCs]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  [../]
  [./temp_dirichlet_diffusion_inlet]
    boundary = 'fuel_bottoms'
    type = DGDiffusionPostprocessorDirichletBC
    variable = temp
    sigma = ${sigma_val}
    epsilon = -1
    diffusivity = 'k'
    postprocessor = coreEndTemp
    offset = -50
  [../]
  [./temp_advection_inlet]
    boundary = 'fuel_bottoms'
    type = PostprocessorTemperatureInflowBC
    variable = temp
    uu = 0
    vv = ${flow_velocity}
    ww = 0
    postprocessor = coreEndTemp
    offset = -50
  [../]
  # [./temp_diri_cg]
  #   boundary = 'moder_bottoms fuel_bottoms outer_wall'
  #   type = FunctionDirichletBC
  #   function = 'temp_bc_func'
  #   variable = temp
  # [../]
  [./temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[Functions]
  [./temp_bc_func]
    type = ParsedFunction
    value = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  [../]
  [./rho_fuel]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'fuel'
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  [../]
  [./rho_moder]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'moder'
  [../]
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  [../]
[]

[Preconditioning]
  [./SMP]
    type = SMP
    full = true
  [../]
[]

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  [../]
  [./coreEndTemp]
    type = SideAverageValue
    variable = temp
    boundary = 'fuel_tops'
    outputs = 'csv console'
    execute_on = 'linear nonlinear'
  [../]
[]

[VectorPostprocessors]
  [./outlet_temps]
    type = LineValueSampler
    start_point = '0 153 0'
    end_point = '72.5 153 0'
    num_points = 1000
    variable = temp
    sort_by = 'x'
    outputs = 'csv'
  [../]
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  [./csv]
    type = CSV
    execute_on = 'final'
  [../]
  exodus = true
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/2017_annals_pub_msre_compare/2group.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13
ini_temp = 922
diri_temp = 922
gamma_frac = .075
R = 73
H = 162.56

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = true
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  nt_scale = ${nt_scale}
[]

[Mesh]
  coord_type = RZ
  file = '2d_lattice_structured.msh'
[]

[Variables]
  [temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  [pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    loop_precursors = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  []
[]

[Nt]
  var_name_base = group
  vacuum_boundaries = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
  create_temperature_var = false
  scaling = 1e-4
  pre_blocks = 'fuel'
[]

[Kernels]
  # Temperature
  [temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  []
  [temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  []
  [temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
    gamma = gamma_func
  []
  [temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  []
  [temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  []
[]

[BCs]
  [temp_diri_cg]
    boundary = 'fuel_bottoms outer_wall'
    type = FlexiblePostprocessorDirichletBC
    postprocessor = coreEndTemp
    offset = -27.8
    variable = temp
  []
  # [./temp_diri_cg]
  #   boundary = 'moder_bottoms fuel_bottoms outer_wall'
  #   type = FunctionDirichletBC
  #   function = 'temp_bc_func'
  #   variable = temp
  # [../]
  [temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
    gamma = gamma_func
  []
[]

[Functions]
  [temp_bc_func]
    type = ParsedFunction
    expression = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  []
  [gamma_func]
    type = ParsedFunction
    expression = '${gamma_frac} * pi^2 / 4 * cos(pi * x / (2. * ${R})) * sin(pi * y / ${H})'
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/serp3d2group0.78eV/2g0.78eV_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  []
  [rho_fuel]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'fuel'
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/serp3d2group0.78eV/2g0.78eV_moder_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  []
  [rho_moder]
    type = DerivativeParsedMaterial
    property_name = rho
    expression = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    coupled_variables = 'temp'
    derivative_order = 1
    block = 'moder'
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  [TimeStepper]
    type = PostprocessorDT
    postprocessor = limit_k
    dt = 1e-3
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  []
  [temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
  [coreEndTemp]
    type = SideAverageValue
    variable = temp
    boundary = 'fuel_tops'
    outputs = 'csv console'
    execute_on = 'linear nonlinear'
  []
  [limit_k]
    type = LimitK
    execute_on = 'timestep_end'
    k_postprocessor = multiplication
    growth_factor = 1.2
    cutback_factor = .4
    k_threshold = 1.5
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  exodus = true
[]

[Debug]
  show_var_residual_norms = true
[]

(problems/033117_nts_temp_pre_parsed_mat/controlled_neutronics_only.i)

flow_velocity = 21.7 # cm/s. See MSRE-properties.ods
nt_scale = 1e13

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = 922
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
[]

[Problem]
  coord_type = RZ
[]

[Variables]
  [group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
  [group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  []
[]

[AuxVariables]
  [power_density]
    order = CONSTANT
    family = MONOMIAL
  []
[]

[Precursors]
  var_name_base = pre
  block = 'fuel'
  outlet_boundaries = 'fuel_tops'
  u_def = 0
  v_def = ${flow_velocity}
  w_def = 0
  nt_exp_form = false
  family = MONOMIAL
  order = CONSTANT
  # jac_test = true
[]

[Kernels]
  # Neutronics
  [time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  []
  [diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  []
  [sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  []
  [fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  []
  [delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  []
  [inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  []
  [diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  []
  [sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  []
  [time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  []
  [fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  []
  [inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  []
[]

[BCs]
  [vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  []
  [vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  []
[]

[AuxKernels]
  [fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  []
  [moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  []
[]

[Materials]
  [fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp rho'
    prop_values = '.0553 1967 2.146e-3' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-5
  []
  [moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp rho'
    prop_values = '.312 1760 1.86e-3' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  []
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  # solve_type = 'NEWTON'
  solve_type = 'PJFNK'
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'asm      lu           1               preonly       1e-3'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  line_search = none
  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  # dtmax = 1
  # dt = 1e-3
  [TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  []
[]

[Preconditioning]
  [SMP]
    type = SMP
    full = true
  []
[]

[Postprocessors]
  [group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  []
  [multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  []
  [peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear timestep_begin'
  []
  [average_fission_heat]
    type = AverageFissionHeat
    nt_scale = ${nt_scale}
    # execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  []
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  csv = true
  [exodus]
    type = Exodus
  []
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

(problems/single_msre_channel_velocity_heat_nts/unit-cell-heat-and-nts.i)

# This input file tests outflow boundary conditions for the incompressible NS equations.
width = 3.048
height = 1.016
length = 162.56
nt_scale=1e13

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  sss2_input = false
  account_delayed = false
  temperature = temp
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = msre_squares.msh
[]


[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    scaling = 1e2
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    # initial_condition = 1
    scaling = 1e2
  [../]
  [./temp]
    order = FIRST
    family = LAGRANGE
    scaling = 1e-4
    # initial_condition = 900
  [../]
[]

[AuxVariables]
  # [./vel_x]
  #   block = 'fuel'
  # [../]
  # [./vel_y]
  #   block = 'fuel'
  # [../]
  # [./vel_z]
  #   block = 'fuel'
  # [../]
  # [./p]
  #   block = 'fuel'
  # [../]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

# [Precursors]
#   var_name_base = pre
#   block = 'fuel'
#   outlet_boundaries = 'fuel_top'
#   u_func = vel_x_func
#   v_func = vel_y_func
#   w_func = vel_z_func
#   constant_velocity_values = false
#   nt_exp_form = false
#   family = MONOMIAL
#   order = CONSTANT
#   # jac_test = true
# []

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  # [./delayed_group1]
  #   type = DelayedNeutronSource
  #   variable = group1
  # [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]

  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  # [./temp_fuel_transport]
  #   type = INSTemperature
  #   u = vel_x
  #   v = vel_y
  #   w = vel_z
  #   variable = temp
  #   block = 'fuel'
  # [../]
  [./temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 0 21.73'
    variable = temp
    block = 'fuel'
  [../]
  [./temp_mod_transport]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
    # block = 'moderator'
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moderator'
    average_fission_heat = 'average_fission_heat'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moderator'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[BCs]
  [./temp_inlet]
    boundary = 'fuel_bottoms'
    variable = temp
    value = 900
    type = DirichletBC
  [../]
  [./temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 0 21.73'
  [../]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moderator_bottoms moderator_tops'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moderator_bottoms moderator_tops'
    variable = group2
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_fuel_'
    interp_type = 'linear'
    block = 'fuel'
    prop_names = 'k cp rho'
    prop_values = '.0553 1967 2.146e-3' # Robertson MSRE technical report @ 922 K
    peak_power_density = peak_power_density
    controller_gain = 1e-2
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../property_file_dir/newt_msre_mod_'
    interp_type = 'linear'
    prop_names = 'k cp rho'
    prop_values = '.312 1760 1.86e-3' # Cammi 2011 at 908 K
    block = 'moderator'
    peak_power_density = peak_power_density
    controller_gain = 0
  [../]
[]

[Debug]
  show_var_residual_norms = true
[]

[Preconditioning]
  [./SMP_PJFNK]
    type = SMP
    full = true
    ksp_norm = 'none'
  [../]
[]

# [Executioner]
#   # type = Steady
#   type = Transient
#   dt = 1
#   num_steps = 1
#   petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
#   petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
#   petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
#   # line_search = none
#   nl_rel_tol = 1e-8
#   nl_max_its = 50
#   l_max_its = 300
# []

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 1e-6

  solve_type = 'PJFNK'
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  # petsc_options_iname = '-pc_type -sub_pc_type -pc_asm_overlap -sub_ksp_type -snes_linesearch_minlambda'
  # petsc_options_value = 'asm      lu           1               preonly       1e-3'
  petsc_options_iname = '-pc_type -pc_factor_shift_type -pc_factor_shift_amount -ksp_type -snes_linesearch_minlambda'
  petsc_options_value = 'lu NONZERO 1.e-10 preonly 1e-3'
  # line_search = 'none'
  # petsc_options_iname = '-snes_type'
  # petsc_options_value = 'test'

  nl_max_its = 30
  l_max_its = 200

#   dtmax = 1
  dtmin = 1e-5
  # dt = 1e-3
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-5
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
    linear_iteration_ratio = 1000
  [../]
[]

[Outputs]
  perf_graph = true
  exodus = true
  csv = true
  file_base = 'out'
[]

[Functions]
  [./nt_ic]
    type = ParsedFunction
    value = '10 * sin(pi * z / ${length})'
  [../]
  [./temp_ic]
    type = ParsedFunction
    value = '900 + 100 / ${length} * z'
  [../]
[]

[ICs]
  [./temp]
    type = FunctionIC
    variable = temp
    function = temp_ic
  [../]
  [./group1]
    type = FunctionIC
    variable = group1
    function = nt_ic
  [../]
  [./group2]
    type = FunctionIC
    variable = group2
    function = nt_ic
  [../]
[]

# [MultiApps]
#   [./sub]
#     type = FullSolveMultiApp
#     app_type = MoltresApp
#     positions = '0 0 0'
#     input_files = solution_aux_exodus.i
#     execute_on = 'initial'
#   [../]
# []

# [Transfers]
#   [./vel_x]
#     type = MultiAppNearestNodeTransfer
#     direction = from_multiapp
#     multi_app = sub
#     source_variable = vel_x
#     variable = vel_x
#     execute_on = 'initial'
#   [../]
#   [./vel_y]
#     type = MultiAppNearestNodeTransfer
#     direction = from_multiapp
#     multi_app = sub
#     source_variable = vel_y
#     variable = vel_y
#     execute_on = 'initial'
#   [../]
#   [./vel_z]
#     type = MultiAppNearestNodeTransfer
#     direction = from_multiapp
#     multi_app = sub
#     source_variable = vel_z
#     variable = vel_z
#     execute_on = 'initial'
#   [../]
#   [./p]
#     type = MultiAppNearestNodeTransfer
#     direction = from_multiapp
#     multi_app = sub
#     source_variable = p
#     variable = p
#     execute_on = 'initial'
#   [../]
# []

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    # outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    # outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moderator'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'console'
    block = 'fuel'
  [../]
  [./peak_power_density]
    type = ElementExtremeValue
    value_type = max
    variable = power_density
    execute_on = 'linear nonlinear timestep_begin'
  [../]
[]

(problems/constant_inlet_outlet_temp_no_heat_flux_at_walls/auto_diff_rho.i)

flow_velocity=21.7 # cm/s. See MSRE-properties.ods
nt_scale=1e13
ini_temp=922
diri_temp=922

[GlobalParams]
  num_groups = 2
  num_precursor_groups = 6
  use_exp_form = false
  group_fluxes = 'group1 group2'
  temperature = temp
  sss2_input = false
  pre_concs = 'pre1 pre2 pre3 pre4 pre5 pre6'
  account_delayed = true
  gamma = .0144 # Cammi .0144
  nt_scale = ${nt_scale}
[]

[Mesh]
  file = '2d_lattice_structured.msh'
[]

[Problem]
  coord_type = RZ
[]

[Variables]
  [./group1]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./group2]
    order = FIRST
    family = LAGRANGE
    initial_condition = 1
    scaling = 1e4
  [../]
  [./temp]
    initial_condition = ${ini_temp}
    scaling = 1e-4
  [../]
[]

[AuxVariables]
  [./power_density]
    order = CONSTANT
    family = MONOMIAL
  [../]
[]

[Precursors]
  [./pres]
    var_name_base = pre
    block = 'fuel'
    outlet_boundaries = 'fuel_tops'
    u_def = 0
    v_def = ${flow_velocity}
    w_def = 0
    nt_exp_form = false
    family = MONOMIAL
    order = CONSTANT
    # jac_test = true
  [../]
[]

[Kernels]
  # Neutronics
  [./time_group1]
    type = NtTimeDerivative
    variable = group1
    group_number = 1
  [../]
  [./diff_group1]
    type = GroupDiffusion
    variable = group1
    group_number = 1
  [../]
  [./sigma_r_group1]
    type = SigmaR
    variable = group1
    group_number = 1
  [../]
  [./fission_source_group1]
    type = CoupledFissionKernel
    variable = group1
    group_number = 1
  [../]
  [./delayed_group1]
    type = DelayedNeutronSource
    variable = group1
  [../]
  [./inscatter_group1]
    type = InScatter
    variable = group1
    group_number = 1
  [../]
  [./diff_group2]
    type = GroupDiffusion
    variable = group2
    group_number = 2
  [../]
  [./sigma_r_group2]
    type = SigmaR
    variable = group2
    group_number = 2
  [../]
  [./time_group2]
    type = NtTimeDerivative
    variable = group2
    group_number = 2
  [../]
  [./fission_source_group2]
    type = CoupledFissionKernel
    variable = group2
    group_number = 2
  [../]
  [./inscatter_group2]
    type = InScatter
    variable = group2
    group_number = 2
  [../]

  # Temperature
  [./temp_time_derivative]
    type = MatINSTemperatureTimeDerivative
    variable = temp
  [../]
  [./temp_source_fuel]
    type = TransientFissionHeatSource
    variable = temp
    block = 'fuel'
  [../]
  [./temp_source_mod]
    type = GammaHeatSource
    variable = temp
    block = 'moder'
    average_fission_heat = 'average_fission_heat'
  [../]
  [./temp_diffusion]
    type = MatDiffusion
    diffusivity = 'k'
    variable = temp
  [../]
  [./temp_advection_fuel]
    type = ConservativeTemperatureAdvection
    velocity = '0 ${flow_velocity} 0'
    variable = temp
    block = 'fuel'
  [../]
[]

[BCs]
  [./vacuum_group1]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group1
  [../]
  [./vacuum_group2]
    type = VacuumConcBC
    boundary = 'fuel_bottoms fuel_tops moder_bottoms moder_tops outer_wall'
    variable = group2
  [../]
  [./temp_diri_cg]
    boundary = 'fuel_bottoms'
    type = FlexiblePostprocessorDirichletBC
    postprocessor = coreEndTemp
    offset = -50
    variable = temp
  [../]
  # [./temp_diri_cg]
  #   boundary = 'moder_bottoms fuel_bottoms outer_wall'
  #   type = FunctionDirichletBC
  #   function = 'temp_bc_func'
  #   variable = temp
  # [../]
  [./temp_advection_outlet]
    boundary = 'fuel_tops'
    type = TemperatureOutflowBC
    variable = temp
    velocity = '0 ${flow_velocity} 0'
  [../]
[]

[AuxKernels]
  [./fuel]
    block = 'fuel'
    type = FissionHeatSourceTransientAux
    variable = power_density
  [../]
  [./moderator]
    block = 'moder'
    type = ModeratorHeatSourceTransientAux
    average_fission_heat = 'average_fission_heat'
    variable = power_density
  [../]
[]

[Functions]
  [./temp_bc_func]
    type = ParsedFunction
    value = '${ini_temp} - (${ini_temp} - ${diri_temp}) * tanh(t/1e-2)'
  [../]
[]

[Materials]
  [./fuel]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_fuel_'
    interp_type = 'spline'
    block = 'fuel'
    prop_names = 'k cp'
    prop_values = '.0553 1967' # Robertson MSRE technical report @ 922 K
    controller_gain = 0
  [../]
  [./rho_fuel]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '2.146e-3 * exp(-1.8 * 1.18e-4 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'fuel'
  [../]
  [./moder]
    type = GenericMoltresMaterial
    property_tables_root = '../../property_file_dir/newt_msre_mod_'
    interp_type = 'spline'
    prop_names = 'k cp'
    prop_values = '.312 1760' # Cammi 2011 at 908 K
    block = 'moder'
    controller_gain = 0
  [../]
  [./rho_moder]
    type = DerivativeParsedMaterial
    f_name = rho
    function = '1.86e-3 * exp(-1.8 * 1.0e-5 * (temp - 922))'
    args = 'temp'
    derivative_order = 1
    block = 'moder'
  [../]
[]

[Executioner]
  type = Transient
  end_time = 10000

  nl_rel_tol = 1e-6
  nl_abs_tol = 6e-6

  solve_type = 'PJFNK'
  line_search = none
  petsc_options = '-snes_converged_reason -ksp_converged_reason -snes_linesearch_monitor'
  petsc_options_iname = '-pc_type'
  petsc_options_value = 'lu'

  nl_max_its = 30
  l_max_its = 100

  dtmin = 1e-5
  [./TimeStepper]
    type = IterationAdaptiveDT
    dt = 1e-3
    cutback_factor = 0.4
    growth_factor = 1.2
    optimal_iterations = 20
  [../]
[]

[Preconditioning]
  [./SMP]
    type = SMP
    full = true
  [../]
[]

[Postprocessors]
  [./group1_current]
    type = IntegralNewVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./group1_old]
    type = IntegralOldVariablePostprocessor
    variable = group1
    outputs = 'console csv'
  [../]
  [./multiplication]
    type = DivisionPostprocessor
    value1 = group1_current
    value2 = group1_old
    outputs = 'console csv'
  [../]
  [./temp_fuel]
    type = ElementAverageValue
    variable = temp
    block = 'fuel'
    outputs = 'csv console'
  [../]
  [./temp_moder]
    type = ElementAverageValue
    variable = temp
    block = 'moder'
    outputs = 'csv console'
  [../]
  [./average_fission_heat]
    type = AverageFissionHeat
    execute_on = 'linear nonlinear'
    outputs = 'csv console'
    block = 'fuel'
  [../]
  [./coreEndTemp]
    type = SideAverageValue
    variable = temp
    boundary = 'fuel_tops'
    outputs = 'csv console'
    execute_on = 'linear nonlinear'
  [../]
[]

[VectorPostprocessors]
  [./outlet_temps]
    type = LineValueSampler
    start_point = '0 153 0'
    end_point = '72.5 153 0'
    num_points = 1000
    variable = temp
    sort_by = 'x'
    outputs = 'csv'
  [../]
[]

[Outputs]
  perf_graph = true
  print_linear_residuals = true
  exodus = true
  [./csv]
    type = CSV
    execute_on = 'final'
  [../]
[]

[Debug]
  show_var_residual_norms = true
[]

# [ICs]
#   [./temp_ic]
#     type = RandomIC
#     variable = temp
#     min = 922
#     max = 1022
#   [../]
#   [./group1_ic]
#     type = RandomIC
#     variable = group1
#     min = .5
#     max = 1.5
#   [../]
#   [./group2_ic]
#     type = RandomIC
#     variable = group2
#     min = .5
#     max = 1.5
#   [../]
# []

Overview
Example Input File Syntax
Input Parameters
Input Files