OGS
HM2b_VPF.prj
<
OpenGeoSysProject
>
<
meshes
>
<
mesh
>domain.vtu</mesh>
<
mesh
>physical_group_DSS1.vtu</mesh>
<
mesh
>physical_group_DSS2.vtu</mesh>
<
mesh
>physical_group_DSS3.vtu</mesh>
<
mesh
>physical_group_DSS4.vtu</mesh>
<
mesh
>physical_group_DSS5.vtu</mesh>
<
mesh
>physical_group_DSS6.vtu</mesh>
<
mesh
>physical_group_DSS7.vtu</mesh>
<
mesh
>physical_group_DSS8.vtu</mesh>
<
mesh
>physical_group_DSS1a.vtu</mesh>
<
mesh
>physical_group_DSS2a.vtu</mesh>
<
mesh
>physical_group_DSS3a.vtu</mesh>
<
mesh
>physical_group_DSS4a.vtu</mesh>
<
mesh
>physical_group_DSS5a.vtu</mesh>
<
mesh
>physical_group_DSS6a.vtu</mesh>
<
mesh
>physical_group_DSS7a.vtu</mesh>
<
mesh
>physical_group_DSS8a.vtu</mesh>
<
mesh
>physical_group_PEE1.vtu</mesh>
<
mesh
>physical_group_PEE2.vtu</mesh>
<
mesh
>physical_group_PEE3.vtu</mesh>
<
mesh
>physical_group_PEE4.vtu</mesh>
<
mesh
>physical_group_PEE5.vtu</mesh>
<
mesh
>physical_group_PEE6.vtu</mesh>
<
mesh
>physical_group_PEE7.vtu</mesh>
<
mesh
>physical_group_PEE8.vtu</mesh>
<
mesh
>physical_group_PEE1a.vtu</mesh>
<
mesh
>physical_group_PEE2a.vtu</mesh>
<
mesh
>physical_group_PEE3a.vtu</mesh>
<
mesh
>physical_group_PEE4a.vtu</mesh>
<
mesh
>physical_group_PEE5a.vtu</mesh>
<
mesh
>physical_group_PEE6a.vtu</mesh>
<
mesh
>physical_group_PEE7a.vtu</mesh>
<
mesh
>physical_group_PEE8a.vtu</mesh>
<
mesh
>physical_group_p_left.vtu</mesh>
<
mesh
>physical_group_p_right.vtu</mesh>
<
mesh
>physical_group_p_top.vtu</mesh>
<
mesh
>physical_group_p_bottom.vtu</mesh>
<
mesh
>physical_group_Outlet_R_embeddedFracture.vtu</mesh>
<
mesh
>physical_group_Inlet.vtu</mesh>
</meshes>
<
processes
>
<
process
>
<
name
>HMPhaseField</name>
<
type
>
HM_PHASE_FIELD
</type>
<
coupling_scheme
>staggered</coupling_scheme>
<
spatial_stabilization_parameter
>1.0</spatial_stabilization_parameter>
<
integration_order
>2</integration_order>
<
phasefield_model
>AT1</phasefield_model>
<
energy_split_model
>Isotropic</energy_split_model>
<
irreversible_threshold
>0.1</irreversible_threshold>
<constitutive_relation id="0">
<type>
LinearElasticIsotropic
</type>
<
youngs_modulus
>E1</youngs_modulus>
<
poissons_ratio
>nu1</poissons_ratio>
</constitutive_relation>
<constitutive_relation id="1">
<type>
LinearElasticIsotropic
</type>
<
youngs_modulus
>E1</youngs_modulus>
<
poissons_ratio
>nu1</poissons_ratio>
</constitutive_relation>
<constitutive_relation id="2">
<type>
LinearElasticIsotropic
</type>
<
youngs_modulus
>E2</youngs_modulus>
<
poissons_ratio
>nu2</poissons_ratio>
</constitutive_relation>
<
phasefield_parameters
>
<
residual_stiffness
>k</residual_stiffness>
<
crack_resistance
>gc</crack_resistance>
<
crack_length_scale
>ls</crack_length_scale>
</phasefield_parameters>
<
width_init
>w_ini</width_init>
<
fracture_threshold
>0.05</fracture_threshold>
<
fluid_compressibility
>0.</fluid_compressibility>
<
specific_fracture_direction
>0. 0.</specific_fracture_direction>
<
diffused_range_parameter
>2</diffused_range_parameter>
<
fracture_permeability_parameter
>10.</fracture_permeability_parameter>
<
process_variables
>
<
phasefield
>phasefield</phasefield>
<
pressure
>pressure</pressure>
<
displacement
>displacement</displacement>
</process_variables>
<
secondary_variables
>
<
secondary_variable
internal_name
="sigma"
output_name
="sigma" />
<
secondary_variable
internal_name
="epsilon"
output_name
="epsilon" />
<
secondary_variable
internal_name
="width_node"
output_name
="width_node" />
</secondary_variables>
<
specific_body_force
>0 0</specific_body_force>
</process>
</processes>
<
media
>
<
medium
id
="0">
<
phases
>
<
phase
>
<
type
>
AqueousLiquid
</type>
<
properties
>
<
property
>
<
name
>viscosity</name>
<
type
>
Constant
</type>
<
value
>1e-3</value>
</property>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>1e3</value>
</property>
</properties>
</phase>
<
phase
>
<
type
>
Solid
</type>
<
properties
>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>2.750e3</value>
</property>
<
property
>
<
name
>biot_coefficient</name>
<
type
>
Constant
</type>
<
value
>0.8</value>
</property>
</properties>
</phase>
</phases>
<
properties
>
<
property
>
<
name
>reference_temperature</name>
<
type
>
Constant
</type>
<
value
>293.15</value>
</property>
<
property
>
<
name
>porosity</name>
<
type
>
Constant
</type>
<
value
>0.01</value>
</property>
<
property
>
<
name
>permeability</name>
<
type
>
Constant
</type>
<
value
>1.e-19</value>
</property>
</properties>
</medium>
<
medium
id
="1">
<
phases
>
<
phase
>
<
type
>
AqueousLiquid
</type>
<
properties
>
<
property
>
<
name
>viscosity</name>
<
type
>
Constant
</type>
<
value
>1e-3</value>
</property>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>1e3</value>
</property>
</properties>
</phase>
<
phase
>
<
type
>
Solid
</type>
<
properties
>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>2.750e3</value>
</property>
<
property
>
<
name
>biot_coefficient</name>
<
type
>
Constant
</type>
<
value
>0.8</value>
</property>
</properties>
</phase>
</phases>
<
properties
>
<
property
>
<
name
>reference_temperature</name>
<
type
>
Constant
</type>
<
value
>293.15</value>
</property>
<
property
>
<
name
>porosity</name>
<
type
>
Constant
</type>
<
value
>0.01</value>
</property>
<
property
>
<
name
>permeability</name>
<
type
>
Constant
</type>
<
value
>1.e-19</value>
</property>
</properties>
</medium>
<
medium
id
="2">
<
phases
>
<
phase
>
<
type
>
AqueousLiquid
</type>
<
properties
>
<
property
>
<
name
>viscosity</name>
<
type
>
Constant
</type>
<
value
>1e-3</value>
</property>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>1e3</value>
</property>
</properties>
</phase>
<
phase
>
<
type
>
Solid
</type>
<
properties
>
<
property
>
<
name
>density</name>
<
type
>
Constant
</type>
<
value
>2.750e3</value>
</property>
<
property
>
<
name
>biot_coefficient</name>
<
type
>
Constant
</type>
<
value
>0.01</value>
</property>
</properties>
</phase>
</phases>
<
properties
>
<
property
>
<
name
>reference_temperature</name>
<
type
>
Constant
</type>
<
value
>293.15</value>
</property>
<
property
>
<
name
>porosity</name>
<
type
>
Constant
</type>
<
value
>0.0001</value>
</property>
<
property
>
<
name
>permeability</name>
<
type
>
Constant
</type>
<
value
>1.e-9</value>
</property>
</properties>
</medium>
</media>
<
time_loop
>
<
global_process_coupling
>
<
max_iter
>100</max_iter>
<
convergence_criteria
>
<
convergence_criterion
>
<type>
DeltaX
</type>
<norm_type>NORM2</norm_type>
<abstol>1.e-12</abstol>
<reltol>1.e-5</reltol>
</convergence_criterion>
<
convergence_criterion
>
<type>
DeltaX
</type>
<norm_type>NORM2</norm_type>
<abstol>1.e-12</abstol>
<reltol>1.e-4</reltol>
</convergence_criterion>
<
convergence_criterion
>
<type>
DeltaX
</type>
<norm_type>NORM2</norm_type>
<abstol>1.e-12</abstol>
<reltol>1.e-4</reltol>
</convergence_criterion>
</convergence_criteria>
<
local_coupling_processes
>
<
max_iter
>5</max_iter>
<
process_name
>pressure</process_name>
<
process_name
>displacement</process_name>
</local_coupling_processes>
</global_process_coupling>
<
processes
>
<
process
ref
="HMPhaseField">
<
process_name
>phasefield</process_name>
<
nonlinear_solver
>petsc_snes</nonlinear_solver>
<
convergence_criterion
>
<
type
>
DeltaX
</type>
<
norm_type
>NORM2</norm_type>
<
abstol
>1e-12</abstol>
<
reltol
>1.e-6</reltol>
</convergence_criterion>
<
time_discretization
>
<
type
>
BackwardEuler
</type>
</time_discretization>
<
time_stepping
>
<
type
>
IterationNumberBasedTimeStepping
</type>
<
t_initial
>0</t_initial>
<
t_end
>3500</t_end>
<
initial_dt
>2</initial_dt>
<
minimum_dt
>1</minimum_dt>
<
maximum_dt
>200</maximum_dt>
<
number_iterations
>1 2 5 10 20</number_iterations>
<
multiplier
>1.6 1.4 1.0 0.7 0.5</multiplier>
</time_stepping>
</process>
<
process
ref
="HMPhaseField">
<
process_name
>pressure</process_name>
<
nonlinear_solver
>basic_newton_p</nonlinear_solver>
<
convergence_criterion
>
<
type
>
DeltaX
</type>
<
norm_type
>NORM2</norm_type>
<
abstol
>1e-12</abstol>
<
reltol
>1.e-6</reltol>
</convergence_criterion>
<
time_discretization
>
<
type
>
BackwardEuler
</type>
</time_discretization>
<
time_stepping
>
<
type
>
IterationNumberBasedTimeStepping
</type>
<
t_initial
>0</t_initial>
<
t_end
>3500</t_end>
<
initial_dt
>2</initial_dt>
<
minimum_dt
>1</minimum_dt>
<
maximum_dt
>200</maximum_dt>
<
number_iterations
>1 2 5 10 20</number_iterations>
<
multiplier
>1.6 1.4 1.0 0.7 0.5</multiplier>
</time_stepping>
</process>
<
process
ref
="HMPhaseField">
<
process_name
>displacement</process_name>
<
nonlinear_solver
>basic_newton_u</nonlinear_solver>
<
convergence_criterion
>
<
type
>
DeltaX
</type>
<
norm_type
>NORM2</norm_type>
<
abstol
>1e-12</abstol>
<
reltol
>1.e-6</reltol>
</convergence_criterion>
<
time_discretization
>
<
type
>
BackwardEuler
</type>
</time_discretization>
<
time_stepping
>
<
type
>
IterationNumberBasedTimeStepping
</type>
<
t_initial
>0</t_initial>
<
t_end
>3500</t_end>
<
initial_dt
>2</initial_dt>
<
minimum_dt
>1</minimum_dt>
<
maximum_dt
>200</maximum_dt>
<
number_iterations
>1 2 5 10 20</number_iterations>
<
multiplier
>1.6 1.4 1.0 0.7 0.5</multiplier>
</time_stepping>
</process>
</processes>
<
output
>
<
type
>
VTK
</type>
<
prefix
>GreatCell_2D</prefix>
<
variables
/>
<
output_iteration_results
>false</output_iteration_results>
<
timesteps
>
<
pair
>
<
repeat
>1</repeat>
<
each_steps
>1</each_steps>
</pair>
</timesteps>
</output>
</time_loop>
<
parameters
>
<
parameter
>
<
name
>E1</name>
<
type
>
Constant
</type>
<
value
>8.39e10</value>
</parameter>
<
parameter
>
<
name
>nu1</name>
<
type
>
Constant
</type>
<
value
>0.21</value>
</parameter>
<
parameter
>
<
name
>E2</name>
<
type
>
Constant
</type>
<
value
>1.e8</value>
</parameter>
<
parameter
>
<
name
>nu2</name>
<
type
>
Constant
</type>
<
value
>0.4</value>
</parameter>
<
parameter
>
<
name
>k</name>
<
type
>
Constant
</type>
<
value
>1e-10</value>
</parameter>
<
parameter
>
<
name
>gc</name>
<
type
>
Constant
</type>
<
value
>10000000</value>
</parameter>
<
parameter
>
<
name
>ls</name>
<
type
>
Constant
</type>
<
value
>0.001</value>
</parameter>
<
parameter
>
<
name
>w_ini</name>
<
type
>
MeshElement
</type>
<
field_name
>width_ic</field_name>
</parameter>
<
parameter
>
<
name
>injectionFlowRate_Inlet</name>
<
type
>
Constant
</type>
<
value
>8.334e-4</value>
</parameter>
<
parameter
>
<
name
>injectionFlowRate_Inlet_ramp</name>
<
type
>
CurveScaled
</type>
<
curve
>timeRamp</curve>
<
parameter
>injectionFlowRate_Inlet</parameter>
</parameter>
<
parameter
>
<
name
>p_outlet</name>
<
type
>
Constant
</type>
<
values
>3.45e6</values>
</parameter>
<
parameter
>
<
name
>pressure_ic</name>
<
type
>
Constant
</type>
<
value
>0.1e6</value>
</parameter>
<
parameter
>
<
name
>displacement0</name>
<
type
>
Constant
</type>
<
values
>0 0</values>
</parameter>
<
parameter
>
<
name
>phasefield_ic</name>
<
type
>
MeshNode
</type>
<
field_name
>pf-ic</field_name>
</parameter>
<
parameter
>
<
name
>phasefield_bc</name>
<
type
>
Constant
</type>
<
value
>1.</value>
</parameter>
<
parameter
>
<
name
>zero</name>
<
type
>
Constant
</type>
<
value
>0</value>
</parameter>
<
parameter
>
<
name
>loading</name>
<
type
>
Constant
</type>
<
value
>1.0</value>
</parameter>
<
parameter
>
<
name
>PEE1_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE1_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE2_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE2_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE3_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE3_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE5_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE5_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE4_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE4_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE6_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE6_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE7_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE7_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE8_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE8_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE1a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE1a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE2a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE2a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE3a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE3a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE4a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE4a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE5a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE5a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE6a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE6a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE7a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE7a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>PEE8a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>PEE8a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS1_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS1_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS2_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS2_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS3_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS3_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS5_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS5_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS4_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS4_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS6_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS6_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS7_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS7_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS8_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS8_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS1a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS1a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS2a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS2a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS3a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS3a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS4a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS4a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS5a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS5a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS6a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS6a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS7a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS7a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
<
parameter
>
<
name
>DSS8a_SURFACE_CURVE</name>
<
type
>
CurveScaled
</type>
<
curve
>DSS8a_SURFACE_CURVE</curve>
<
parameter
>loading</parameter>
</parameter>
</parameters>
<
curves
>
<
curve
>
<
name
>timeRamp</name>
<coords>0 2999.9 3000 3500</coords>
<values>0 0.0 1.0 1.0</values>
</curve>
<
curve
>
<
name
>PEE1_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7730000.0 -7730000.0</values>
</curve>
<
curve
>
<
name
>PEE2_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5700000.0 -5700000.0</values>
</curve>
<
curve
>
<
name
>PEE3_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-4390000.0 -4390000.0</values>
</curve>
<
curve
>
<
name
>PEE4_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2400000.0 -2400000.0</values>
</curve>
<
curve
>
<
name
>PEE5_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2300000.0 -2300000.0</values>
</curve>
<
curve
>
<
name
>PEE6_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-4000000.0 -4000000.0</values>
</curve>
<
curve
>
<
name
>PEE7_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-6400000.0 -6400000.0</values>
</curve>
<
curve
>
<
name
>PEE8_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7700000.0 -7700000.0</values>
</curve>
<
curve
>
<
name
>PEE1a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7730000.0 -7730000.0</values>
</curve>
<
curve
>
<
name
>PEE2a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5700000.0 -5700000.0</values>
</curve>
<
curve
>
<
name
>PEE3a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-4390000.0 -4390000.0</values>
</curve>
<
curve
>
<
name
>PEE4a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2400000.0 -2400000.0</values>
</curve>
<
curve
>
<
name
>PEE5a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2300000.0 -2300000.0</values>
</curve>
<
curve
>
<
name
>PEE6a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-4000000.0 -4000000.0</values>
</curve>
<
curve
>
<
name
>PEE7a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-6400000.0 -6400000.0</values>
</curve>
<
curve
>
<
name
>PEE8a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7700000.0 -7700000.0</values>
</curve>
<
curve
>
<
name
>DSS1_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-6715000.0 -6715000.0</values>
</curve>
<
curve
>
<
name
>DSS2_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5045000.0 -5045000.0</values>
</curve>
<
curve
>
<
name
>DSS3_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-3395000.0 -3395000.0</values>
</curve>
<
curve
>
<
name
>DSS4_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2350000.0 -2350000.0</values>
</curve>
<
curve
>
<
name
>DSS5_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-3150000.0 -3150000.0</values>
</curve>
<
curve
>
<
name
>DSS6_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5200000.0 -5200000.0</values>
</curve>
<
curve
>
<
name
>DSS7_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7050000.0 -7050000.0</values>
</curve>
<
curve
>
<
name
>DSS8_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7715000.0 -7715000.0</values>
</curve>
<
curve
>
<
name
>DSS1a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-6715000.0 -6715000.0</values>
</curve>
<
curve
>
<
name
>DSS2a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5045000.0 -5045000.0</values>
</curve>
<
curve
>
<
name
>DSS3a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-3395000.0 -3395000.0</values>
</curve>
<
curve
>
<
name
>DSS4a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-2350000.0 -2350000.0</values>
</curve>
<
curve
>
<
name
>DSS5a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-3150000.0 -3150000.0</values>
</curve>
<
curve
>
<
name
>DSS6a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-5200000.0 -5200000.0</values>
</curve>
<
curve
>
<
name
>DSS7a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7050000.0 -7050000.0</values>
</curve>
<
curve
>
<
name
>DSS8a_SURFACE_CURVE</name>
<coords>0 500</coords>
<values>-7715000.0 -7715000.0</values>
</curve>
</curves>
<
process_variables
>
<
process_variable
>
<
name
>phasefield</name>
<
components
>1</components>
<
order
>1</order>
<
initial_condition
>phasefield_ic</initial_condition>
<
boundary_conditions
>
<
boundary_condition
>
<
mesh
>physical_group_PEE1</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE1a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>phasefield_bc</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<
process_variable
>
<
name
>pressure</name>
<
components
>1</components>
<
order
>1</order>
<
initial_condition
>pressure_ic</initial_condition>
<
source_terms
>
<
source_term
>
<
mesh
>physical_group_Inlet</mesh>
<
type
>
Line
</type>
<
parameter
>injectionFlowRate_Inlet_ramp</parameter>
</source_term>
</source_terms>
<
boundary_conditions
>
<
boundary_condition
>
<
mesh
>physical_group_Outlet_R_embeddedFracture</mesh>
<
type
>
DirichletWithinTimeInterval
</type>
<
parameter
>p_outlet</parameter>
<
time_interval
>
<start>0</start>
<end>3500</end>
</time_interval>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE1</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE1a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8a</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>pressure_ic</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<
process_variable
>
<
name
>displacement</name>
<
components
>2</components>
<
order
>1</order>
<
initial_condition
>displacement0</initial_condition>
<
boundary_conditions
>
<
boundary_condition
>
<
mesh
>physical_group_p_bottom</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_p_bottom</mesh>
<
type
>
Dirichlet
</type>
<
component
>1</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_p_left</mesh>
<
type
>
Dirichlet
</type>
<
component
>0</component>
<
parameter
>zero</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE1</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE1_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE2_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE3_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE4_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE5_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE6_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE7_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE8_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE1a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE1a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE2a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE2a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE3a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE3a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE4a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE4a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE5a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE5a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE6a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE6a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE7a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE7a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_PEE8a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>PEE8a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS1_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS2_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS3_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS4_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS5_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS6_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS7_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS8_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS1a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS1a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS2a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS2a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS3a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS3a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS4a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS4a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS5a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS5a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS6a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS6a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS7a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS7a_SURFACE_CURVE</parameter>
</boundary_condition>
<
boundary_condition
>
<
mesh
>physical_group_DSS8a</mesh>
<
type
>
NormalTraction
</type>
<
parameter
>DSS8a_SURFACE_CURVE</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<
nonlinear_solvers
>
<
nonlinear_solver
>
<
name
>petsc_snes</name>
<
type
>
PETScSNES
</type>
<
max_iter
>50</max_iter>
<
linear_solver
>linear_solver_d</linear_solver>
</nonlinear_solver>
<
nonlinear_solver
>
<
name
>basic_newton_d</name>
<
type
>
Newton
</type>
<
max_iter
>50</max_iter>
<
linear_solver
>linear_solver_d</linear_solver>
</nonlinear_solver>
<
nonlinear_solver
>
<
name
>basic_newton_u</name>
<
type
>
Newton
</type>
<
max_iter
>159</max_iter>
<
linear_solver
>linear_solver_u</linear_solver>
</nonlinear_solver>
<
nonlinear_solver
>
<
name
>basic_newton_p</name>
<
type
>
Newton
</type>
<
max_iter
>150</max_iter>
<
linear_solver
>linear_solver_p</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<
linear_solvers
>
<
linear_solver
>
<
name
>linear_solver_d</name>
<
eigen
>
<
solver_type
>BiCGSTAB</solver_type>
<
precon_type
>ILUT</precon_type>
<
max_iteration_step
>100</max_iteration_step>
<
error_tolerance
>1e-16</error_tolerance>
</eigen>
<
petsc
>
<
parameters
>-ksp_type bcgs -pc_type bjacobi -ksp_atol 1e-12 -ksp_rtol 1e-12 -snes_type vinewtonrsls -snes_linesearch_type l2 -snes_atol 1.e-5 -snes_rtol 1.e-5 -snes_max_it 1000 -snes_monitor</parameters>
</petsc>
</linear_solver>
<
linear_solver
>
<
name
>linear_solver_u</name>
<
eigen
>
<
solver_type
>BiCGSTAB</solver_type>
<
precon_type
>ILUT</precon_type>
<
max_iteration_step
>10000</max_iteration_step>
<
error_tolerance
>1e-16</error_tolerance>
</eigen>
<
petsc
>
<
prefix
>u</prefix>
<
parameters
>-u_ksp_type bcgs -u_pc_type hypre -u_pc_hypre_type boomeramg -u_pc_hypre_boomeramg_strong_threshold 0.7 -u_ksp_atol 1e-12 -u_ksp_rtol 1e-12</parameters>
</petsc>
</linear_solver>
<
linear_solver
>
<
name
>linear_solver_p</name>
<
eigen
>
<
solver_type
>BiCGSTAB</solver_type>
<
precon_type
>ILUT</precon_type>
<
max_iteration_step
>10000</max_iteration_step>
<
error_tolerance
>1e-16</error_tolerance>
</eigen>
<
petsc
>
<
prefix
>p</prefix>
<
parameters
>-p_ksp_type gmres
-p_ksp_gmres_restart 100
-p_pc_type hypre
-p_pc_hypre_type boomeramg
-p_pc_hypre_boomeramg_strong_threshold 0.25
-p_pc_hypre_boomeramg_max_iter 100
-p_ksp_atol 1e-14
-p_ksp_rtol 1e-12
-p_ksp_max_it 10000</parameters>
</petsc>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
OGS CTests—Project Files
HMPhaseField
GreatCell
Generated by
1.14.0