Commit 44e2078e authored by Boyan Meng's avatar Boyan Meng Committed by Dmitry Yu. Naumov
Browse files

[T/TH2PP] Add new benchmark "Two phase TCE diffusion" and web docu

parent 13094851
......@@ -26,3 +26,17 @@ AddTest(
ref_t_1100000.000000.vtu thermaltwophaseflow_large_ts_1100_t_1100000.000000.vtu saturation saturation 1e-8 1e-10
ref_t_1100000.000000.vtu thermaltwophaseflow_large_ts_1100_t_1100000.000000.vtu temperature temperature 1e-8 1e-10
)
AddTest(
NAME 1D_TwoPhase_TCE_diffusion_small
PATH Parabolic/ThermalTwoPhaseFlowPP/TCEDiffusion
RUNTIME 12
EXECUTABLE ogs
EXECUTABLE_ARGS Twophase_TCE_diffusion_1D_small.prj
TESTER vtkdiff
REQUIREMENTS NOT OGS_USE_MPI
DIFF_DATA
ref_t_1000000.000000.vtu Twophase_TCE_diffusion_1D_ts_100_t_1000000.000000.vtu capillary_pressure capillary_pressure 1e-8 1e-8
ref_t_1000000.000000.vtu Twophase_TCE_diffusion_1D_ts_100_t_1000000.000000.vtu gas_pressure gas_pressure 1e-8 1e-8
ref_t_1000000.000000.vtu Twophase_TCE_diffusion_1D_ts_100_t_1000000.000000.vtu Xc Xc 1e-8 1e-8
ref_t_1000000.000000.vtu Twophase_TCE_diffusion_1D_ts_100_t_1000000.000000.vtu temperature temperature 1e-8 1e-8
)
<?xml version="1.0" encoding="ISO-8859-1"?>
<OpenGeoSysProject>
<meshes>
<mesh>domain.vtu</mesh>
<mesh>top.vtu</mesh>
<mesh>bottom.vtu</mesh>
<mesh>sat_zone.vtu</mesh>
</meshes>
<processes>
<process>
<name>GW23</name>
<type>THERMAL_TWOPHASE_WITH_PP</type>
<integration_order>2</integration_order>
<process_variables>
<gas_pressure> gas_pressure </gas_pressure>
<capillary_pressure> capillary_pressure</capillary_pressure>
<total_molar_fraction_contaminant>Xc</total_molar_fraction_contaminant>
<temperature>temperature</temperature>
</process_variables>
<jacobian_assembler>
<type>CentralDifferences</type>
<component_magnitudes>1e5 5e3 1e-9 300</component_magnitudes>
<relative_epsilons>1e-6 1e-6 1e-6 1e-6</relative_epsilons>
</jacobian_assembler>
<secondary_variables>
<secondary_variable internal_name="saturation" output_name="saturation"/>
<secondary_variable internal_name="pressure_wetting" output_name="pressure_wetting"/>
<secondary_variable internal_name="gas_molar_fraction_water" output_name="xwG"/>
<secondary_variable internal_name="liquid_molar_fraction_contaminant" output_name="xcL"/>
<secondary_variable internal_name="gas_molar_fraction_contaminant" output_name="xcG"/>
</secondary_variables>
<specific_body_force>-9.81</specific_body_force>
<mass_lumping> true </mass_lumping>
</process>
</processes>
<media>
<medium id="0">
<phases>
<phase>
<type>AqueousLiquid</type>
<components>
<component>
<name>c</name>
<properties>
<property>
<name>pore_diffusion</name>
<type>Function</type>
<value>
<expression>9.1e-10 * 0.38^(1/3) * liquid_saturation^(7/3)</expression>
</value>
</property>
</properties>
</component>
</components>
<properties>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.0e-3</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value> 4187 </value>
</property>
<property>
<name>density</name>
<type>Constant</type>
<value> 1.e3 </value>
</property>
</properties>
</phase>
<phase>
<type>Gas</type>
<components>
<component>
<name>a</name>
<properties>
<property>
<name>molar_mass</name>
<type>Constant</type>
<value>0.028964397787206768</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>733</value>
</property>
</properties>
</component>
<component>
<name>w</name>
<properties>
<property>
<name>molar_mass</name>
<type>Constant</type>
<value>0.018016</value>
</property>
<property>
<name>pore_diffusion</name>
<type>Function</type>
<value>
<expression>2.6e-6 * 0.38^(1/3) * (1.-liquid_saturation)^(7/3)</expression>
</value>
</property>
<property>
<name>specific_heat_capacity</name>
<type>Constant</type>
<value>4187</value>
</property>
<property>
<name>specific_latent_heat</name>
<type>Constant</type>
<value>2258000</value>
</property>
<property>
<name>vapour_pressure</name>
<type>Constant</type>
<value>1</value>
</property>
</properties>
</component>
<component>
<name>c</name>
<properties>
<property>
<name>molar_mass</name>
<type>Constant</type>
<value>0.1314</value>
</property>
<property>
<name>henry_constant</name>
<type>Constant</type>
<value>1.062e-3</value>
</property>
<property>
<name>pore_diffusion</name>
<type>Function</type>
<value>
<expression>8.3e-6 * 0.38^(1/3) * (1.-liquid_saturation)^(7/3)</expression>
</value>
</property>
<property>
<name>specific_heat_capacity </name>
<type>Constant</type>
<value>1</value>
</property>
</properties>
</component>
</components>
<properties>
<property>
<name>density</name>
<type>IdealGasLaw</type>
</property>
<property>
<name>viscosity</name>
<type>Constant</type>
<value>1.851e-5</value>
</property>
</properties>
</phase>
<phase>
<type>Solid</type>
<properties>
<property>
<name>density</name>
<type>Constant</type>
<value>2650</value>
</property>
<property>
<name>specific_heat_capacity </name>
<type>Constant</type>
<value>750</value>
</property>
</properties>
</phase>
</phases>
<properties>
<property>
<name>porosity</name>
<type>Constant</type>
<value>0.38</value>
</property>
<property>
<name>permeability</name>
<type>Constant</type>
<value>1.18e-11</value>
</property>
<property>
<name>saturation</name>
<type>SaturationVanGenuchten</type>
<residual_liquid_saturation>0.0</residual_liquid_saturation>
<residual_gas_saturation>0.0</residual_gas_saturation>
<exponent>0.8</exponent>
<p_b>1635</p_b>
</property>
<property>
<name>relative_permeability</name>
<type>RelativePermeabilityVanGenuchten</type>
<residual_liquid_saturation>0.0</residual_liquid_saturation>
<residual_gas_saturation>0.0</residual_gas_saturation>
<exponent>0.8</exponent>
<minimum_relative_permeability_liquid>0</minimum_relative_permeability_liquid>
</property>
<property>
<name>relative_permeability_nonwetting_phase</name>
<type>RelativePermeabilityNonWettingPhaseVanGenuchtenMualem</type>
<residual_liquid_saturation>0.0</residual_liquid_saturation>
<residual_gas_saturation>0.0</residual_gas_saturation>
<exponent>0.8</exponent>
<min_relative_permeability>1e-8</min_relative_permeability>
</property>
<property>
<name>thermal_conductivity</name>
<type>Constant</type>
<value>1</value>
</property>
<property>
<name>longitudinal_dispersivity</name>
<type>Constant</type>
<value>0</value>
</property>
<property>
<name>transversal_dispersivity</name>
<type>Constant</type>
<value>0</value>
</property>
</properties>
</medium>
</media>
<parameters>
<parameter>
<name>pc_Dirichlet_bottom</name>
<type>Constant</type>
<value>0</value>
</parameter>
<parameter>
<name>pg_Dirichlet_bottom</name>
<type>Constant</type>
<value>105319</value>
</parameter>
<parameter>
<name>pg_Dirichlet_top</name>
<type>Constant</type>
<value>101325.0</value>
</parameter>
<parameter>
<name>pc_0</name>
<type>MeshNode</type>
<field_name>Pc_0</field_name>
</parameter>
<parameter>
<name>pg_0</name>
<type>MeshNode</type>
<field_name>Pg_0</field_name>
</parameter>
<parameter>
<name>T_0</name>
<type>Constant</type>
<value>298.15</value>
</parameter>
<parameter>
<name>Xc_0</name>
<type>Constant</type>
<value>0</value>
</parameter>
<parameter>
<name>Xc_Dirichlet_sat_zone</name>
<type>Constant</type>
<value>1e-6</value>
</parameter>
</parameters>
<time_loop>
<processes>
<process ref="GW23">
<nonlinear_solver>basic_newton</nonlinear_solver>
<convergence_criterion>
<type>PerComponentDeltaX</type>
<norm_type>NORM2</norm_type>
<reltols>1.e-6 1.e-6 1e-6 1e-6</reltols>
</convergence_criterion>
<time_discretization>
<type>BackwardEuler</type>
</time_discretization>
<time_stepping>
<type>FixedTimeStepping</type>
<t_initial>0</t_initial>
<t_end>1e6</t_end>
<timesteps>
<pair>
<repeat>100</repeat>
<delta_t>10000</delta_t>
</pair>
</timesteps>
</time_stepping>
</process>
</processes>
<output>
<type>VTK</type>
<prefix>Twophase_TCE_diffusion_1D</prefix>
<timesteps>
<pair>
<repeat> 1 </repeat>
<each_steps> 100 </each_steps>
</pair>
</timesteps>
<output_iteration_results>false</output_iteration_results>
<variables>
<variable> capillary_pressure </variable>
<variable> gas_pressure </variable>
<variable> Xc </variable>
<variable> saturation </variable>
<variable> pressure_wetting </variable>
<variable> temperature </variable>
<variable> xwG </variable>
<variable> xcG </variable>
<variable> xcL </variable>
</variables>
<suffix>_ts_{:timestep}_t_{:time}</suffix>
</output>
</time_loop>
<process_variables>
<process_variable>
<name>capillary_pressure</name>
<components>1</components>
<order>1</order>
<initial_condition>pc_0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>bottom</mesh>
<type>Dirichlet</type>
<parameter>pc_Dirichlet_bottom</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>gas_pressure</name>
<components>1</components>
<order>1</order>
<initial_condition>pg_0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>top</mesh>
<type>Dirichlet</type>
<parameter>pg_Dirichlet_top</parameter>
</boundary_condition>
<boundary_condition>
<mesh>bottom</mesh>
<type>Dirichlet</type>
<parameter>pg_Dirichlet_bottom</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>Xc</name>
<components>1</components>
<order>1</order>
<initial_condition>Xc_0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>top</mesh>
<type>Dirichlet</type>
<parameter>Xc_0</parameter>
</boundary_condition>
<boundary_condition>
<mesh>sat_zone</mesh>
<type>Dirichlet</type>
<parameter>Xc_Dirichlet_sat_zone</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
<process_variable>
<name>temperature</name>
<components>1</components>
<order>1</order>
<initial_condition>T_0</initial_condition>
<boundary_conditions>
<boundary_condition>
<mesh>domain</mesh>
<type>Dirichlet</type>
<parameter>T_0</parameter>
</boundary_condition>
</boundary_conditions>
</process_variable>
</process_variables>
<nonlinear_solvers>
<nonlinear_solver>
<name> basic_newton </name>
<type> Newton </type>
<max_iter> 20 </max_iter>
<linear_solver>general_linear_solver</linear_solver>
</nonlinear_solver>
</nonlinear_solvers>
<linear_solvers>
<linear_solver>
<name>general_linear_solver</name>
<lis>-i bicgstab -p ilu -tol 1e-18 -maxiter 10000</lis>
<eigen>
<solver_type>BiCGSTAB</solver_type>
<scaling>true</scaling>
<precon_type>ILUT</precon_type>
<max_iteration_step>10000</max_iteration_step>
<error_tolerance>1e-18</error_tolerance>
</eigen>
<petsc>
<prefix>multiphase</prefix>
<parameters>-gw_ksp_type cg -gw_pc_type bjacobi -gw_ksp_rtol 1e-16 -gw_ksp_max_it 10000</parameters>
</petsc>
</linear_solver>
</linear_solvers>
</OpenGeoSysProject>
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64">
<UnstructuredGrid>
<Piece NumberOfPoints="1" NumberOfCells="1" >
<PointData>
<DataArray type="Float64" Name="Pc_0" format="appended" RangeMin="0" RangeMax="0" offset="0" />
<DataArray type="Float64" Name="Pg_0" format="appended" RangeMin="105347" RangeMax="105347" offset="24" />
<DataArray type="UInt64" Name="bulk_node_ids" format="appended" RangeMin="0" RangeMax="0" offset="48" />
<DataArray type="Int64" Name="vtkOriginalPointIds" format="appended" RangeMin="0" RangeMax="0" offset="72" />
</PointData>
<CellData>
<DataArray type="UInt64" Name="bulk_element_ids" format="appended" RangeMin="0" RangeMax="0" offset="96" />
</CellData>
<Points>
<DataArray type="Float64" Name="Points" NumberOfComponents="3" format="appended" RangeMin="0" RangeMax="0" offset="120" />
</Points>
<Cells>
<DataArray type="Int64" Name="connectivity" format="appended" RangeMin="" RangeMax="" offset="164" />
<DataArray type="Int64" Name="offsets" format="appended" RangeMin="" RangeMax="" offset="188" />
<DataArray type="UInt8" Name="types" format="appended" RangeMin="" RangeMax="" offset="212" />
</Cells>
</Piece>
</UnstructuredGrid>
<AppendedData encoding="base64">
_CAAAAAAAAAAAAAAAAAAAAA==CAAAAAAAAAAAAAAAMLj5QA==CAAAAAAAAAAAAAAAAAAAAA==CAAAAAAAAAAAAAAAAAAAAA==CAAAAAAAAAAAAAAAAAAAAA==GAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=CAAAAAAAAAAAAAAAAAAAAA==CAAAAAAAAAABAAAAAAAAAA==AQAAAAAAAAAB
</AppendedData>
</VTKFile>
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64">
<UnstructuredGrid>
<FieldData>
<DataArray type="Int8" Name="OGS_VERSION" NumberOfTuples="27" format="appended" RangeMin="45" RangeMax="121" offset="0" />
</FieldData>
<Piece NumberOfPoints="146" NumberOfCells="145" >
<PointData>
<DataArray type="Float64" Name="Pc_0" format="appended" RangeMin="0" RangeMax="5787.9818064" offset="48" />
<DataArray type="Float64" Name="Pg_0" format="appended" RangeMin="101325" RangeMax="105347" offset="1616" />
<DataArray type="UInt64" Name="bulk_node_ids" format="appended" RangeMin="0" RangeMax="145" offset="3184" />
</PointData>
<CellData>
<DataArray type="Int32" Name="MaterialIDs" format="appended" RangeMin="0" RangeMax="0" offset="4752" />
<DataArray type="UInt64" Name="bulk_element_ids" format="appended" RangeMin="0" RangeMax="144" offset="5536" />
</CellData>
<Points>
<DataArray type="Float64" Name="Points" NumberOfComponents="3" format="appended" RangeMin="0" RangeMax="1" offset="7096" />
</Points>
<Cells>
<DataArray type="Int64" Name="connectivity" format="appended" RangeMin="" RangeMax="" offset="11780" />
<DataArray type="Int64" Name="offsets" format="appended" RangeMin="" RangeMax="" offset="14884" />
<DataArray type="UInt8" Name="types" format="appended" RangeMin="" RangeMax="" offset="16444" />
</Cells>
</Piece>
</UnstructuredGrid>
<AppendedData encoding="base64">
_GwAAAAAAAAA2LjQuMS0xMzU4LWcwMDQyODNmNjIuZGlydHk=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kQAAAAAAAAADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMD
</AppendedData>
</VTKFile>
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64">
<UnstructuredGrid>
<Piece NumberOfPoints="37" NumberOfCells="36" >
<PointData>
<DataArray type="Float64" Name="Pc_0" format="appended" RangeMin="0" RangeMax="274.04879973" offset="0" />
<DataArray type="Float64" Name="Pg_0" format="appended" RangeMin="101626.99229" RangeMax="105347" offset="408" />
<DataArray type="UInt64" Name="bulk_node_ids" format="appended" RangeMin="0" RangeMax="39" offset="816" />
<DataArray type="Int64" Name="vtkOriginalPointIds" format="appended" RangeMin="0" RangeMax="39" offset="1224" />
</PointData>
<CellData>
<DataArray type="Int32" Name="MaterialIDs" format="appended" RangeMin="0" RangeMax="0" offset="1632" />
<DataArray type="UInt64" Name="bulk_element_ids" format="appended" RangeMin="0" RangeMax="35" offset="1836" />
<DataArray type="Int64" Name="vtkOriginalCellIds" format="appended" RangeMin="0" RangeMax="35" offset="2232" />
</CellData>
<Points>
<DataArray type="Float64" Name="Points" NumberOfComponents="3" format="appended" RangeMin="0" RangeMax="0.40714130711" offset="2628" />
</Points>
<Cells>
<DataArray type="Int64" Name="connectivity" format="appended" RangeMin="" RangeMax="" offset="3824" />
<DataArray type="Int64" Name="offsets" format="appended" RangeMin="" RangeMax="" offset="4604" />
<DataArray type="UInt8" Name="types" format="appended" RangeMin="" RangeMax="" offset="5000" />
</Cells>
</Piece>
</UnstructuredGrid>
<AppendedData encoding="base64">
_KAEAAAAAAAAAAAAAAAAAAPmS77ePaDBAFi8EwS3zP0A0WSuRNVZHQFiSSSkOUE5AE7zGEFl2UkA1Tlyzr5hVQMlRz6GCkVhAsOC0gSRjW0AUXnIoxQ9eQAenENW5TGBAB9YBJRCBYUAI+24nz6ViQAzjEt7Su2NAzrwceOrDZEBnpqkV2b5lQB3JA4BWrWZAJZPy1Q+QZ0D86wwvqGdoQNLD6TS5NGlAQpTsstP3aUATGukdgLFqQII2kRM/YmtAsFch0okKbEC28NOo0qpsQEZJEmKFQ21AdR+npgfVbUBBckFbuV9uQC5ccfj0425A8KIY3Q9ib0BIZcabWtpvQA383aGQJnBAAWjI0lVdcEBpMJHJnpFwQPn+AI6Lw3BADpg5YzrzcEC1yDnixyBxQA==KAEAAAAAAAAAAAAAMLj5QMVop48frflAKE0rk22i+UAeDwYJF5j5QD7+4QUZjvlAhuAZtHCE+UDzyjhTG3v5QJtLfDcWcvlADKZXyV5p+UA3uPaE8mD5QHrrw/nOWPlAjZPvyfFQ+UBGifapWEn5QAr3KWABQvlAj948xOk6+UAm4s++DzT5QNbm/EhxLflAXTbsawwn+UDA02JA3yD5QI/0Ve7nGvlAtpWCrCQV+UCO7gPAkw/5QN+57HszCvlAJIrjQAIF+UAqjsF8/v/4QE5dL6om+/hA5cVIUHn2+EC3Q0AC9fH4QCKDA1+Y7fhAie3jEGLp+EC8G0LNUOX4QC1OOFRj4fhABIJGcJjd+EDFaAX27tn4QDQC2MNl1vhARAydwfvS+ECtFGfgr8/4QA==KAEAAAAAAAAAAAAAAAAAAAQAAAAAAAAABQAAAAAAAAAGAAAAAAAAAAcAAAAAAAAACAAAAAAAAAAJAAAAAAAAAAoAAAAAAAAACwAAAAAAAAAMAAAAAAAAAA0AAAAAAAAADgAAAAAAAAAPAAAAAAAAABAAAAAAAAAAEQAAAAAAAAASAAAAAAAAABMAAAAAAAAAFAAAAAAAAAAVAAAAAAAAABYAAAAAAAAAFwAAAAAAAAAYAAAAAAAAABkAAAAAAAAAGgAAAAAAAAAbAAAAAAAAABwAAAAAAAAAHQAAAAAAAAAeAAAAAAAAAB8AAAAAAAAAIAAAAAAAAAAhAAAAAAAAACIAAAAAAAAAIwAAAAAAAAAkAAAAAAAAACUAAAAAAAAAJgAAAAAAAAAnAAAAAAAAAA==KAEAAAAAAAAAAAAAAAAAAAQAAAAAAAAABQAAAAAAAAAGAAAAAAAAAAcAAAAAAAAACAAAAAAAAAAJAAAAAAAAAAoAAAAAAAAACwAAAAAAAAAMAAAAAAAAAA0AAAAAAAAADgAAAAAAAAAPAAAAAAAAABAAAAAAAAAAEQAAAAAAAAASAAAAAAAAABMAAAAAAAAAFAAAAAAAAAAVAAAAAAAAABYAAAAAAAAAFwAAAAAAAAAYAAAAAAAAABkAAAAAAAAAGgAAAAAAAAAbAAAAAAAAABwAAAAAAAAAHQAAAAAAAAAeAAAAAAAAAB8AAAAAAAAAIAAAAAAAAAAhAAAAAAAAACIAAAAAAAAAIwAAAAAAAAAkAAAAAAAAACUAAAAAAAAAJgAAAAAAAAAnAAAAAAAAAA==kAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=IAEAAAAAAAAAAAAAAAAAAAEAAAAAAAAAAgAAAAAAAAADAAAAAAAAAAQAAAAAAAAABQAAAAAAAAAGAAAAAAAAAAcAAAAAAAAACAAAAAAAAAAJAAAAAAAAAAoAAAAAAAAACwAAAAAAAAAMAAAAAAAAAA0AAAAAAAAADgAAAAAAAAAPAAAAAAAAABAAAAAAAAAAEQAAAAAAAAASAAAAAAAAABMAAAAAAAAAFAAAAAAAAAAVAAAAAAAAABYAAAAAAAAAFwAAAAAAAAAYAAAAAAAAABkAAAAAAAAAGgAAAAAAAAAbAAAAAAAAABwAAAAAAAAAHQAAAAAAAAAeAAAAAAAAAB8AAAAAAAAAIAAAAAAAAAAhAAAAAAAAACIAAAAAAAAAIwAAAAAAAAA=IAEAAAAAAAAAAAAAAAAAAAEAAAAAAAAAAgAAAAAAAAADAAAAAAAAAAQAAAAAAAAABQAAAAAAAAAGAAAAAAAAAAcAAAAAAAAACAAAAAAAAAAJAAAAAAAAAAoAAAAAAAAACwAAAAAAAAAMAAAAAAAAAA0AAAAAAAAADgAAAAAAAAAPAAAAAAAAABAAAAAAAAAAEQAAAAAAAAASAAAAAAAAABMAAAAAAAAAFAAAAAAAAAAVAAAAAAAAABYAAAAAAAAAFwAAAAAAAAAYAAAAAAAAABkAAAAAAAAAGgAAAAAAAAAbAAAAAAAAABwAAAAAAAAAHQAAAAAAAAAeAAAAAAAAAB8AAAAAAAAAIAAAAAAAAAAhAAAAAAAAACIAAAAAAAAAIwAAAAAAAAA=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IAEAAAAAAAACAAAAAAAAAAQAAAAAAAAABgAAAAAAAAAIAAAAAAAAAAoAAAAAAAAADAAAAAAAAAAOAAAAAAAAABAAAAAAAAAAEgAAAAAAAAAUAAAAAAAAABYAAAAAAAAAGAAAAAAAAAAaAAAAAAAAABwAAAAAAAAAHgAAAAAAAAAgAAAAAAAAACIAAAAAAAAAJAAAAAAAAAAmAAAAAAAAACgAAAAAAAAAKgAAAAAAAAAsAAAAAAAAAC4AAAAAAAAAMAAAAAAAAAAyAAAAAAAAADQAAAAAAAAANgAAAAAAAAA4AAAAAAAAADoAAAAAAAAAPAAAAAAAAAA+AAAAAAAAAEAAAAAAAAAAQgAAAAAAAABEAAAAAAAAAEYAAAAAAAAASAAAAAAAAAA=JAAAAAAAAAADAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwMDAwM=
</AppendedData>
</VTKFile>
<?xml version="1.0"?>
<VTKFile type="UnstructuredGrid" version="1.0" byte_order="LittleEndian" header_type="UInt64">
<UnstructuredGrid>
<Piece NumberOfPoints="1" NumberOfCells="1" >
<PointData>
<DataArray type="Float64" Name="Pc_0" format="appended" RangeMin="5787.9818064" RangeMax="5787.9818064" offset="0" />
<DataArray type="Float64" Name="Pg_0" format="appended" RangeMin="101325" RangeMax="101325" offset="24" />
<DataArray type="UInt64" Name="bulk_node_ids" format="appended" RangeMin="3" RangeMax="3" offset="48" />
<DataArray type="Int64" Name="vtkOriginalPointIds" format="appended" RangeMin="3" RangeMax="3" offset="72" />
</PointData>
<CellData>
<DataArray type="UInt64" Name="bulk_element_ids" format="appended" RangeMin="144" RangeMax="144" offset="96" />
</CellData>
<Points>
<DataArray type="Float64" Name="Points" NumberOfComponents="3" format="appended" RangeMin="1" RangeMax="1" offset="120" />
</Points>
<Cells>
<DataArray type="Int64" Name="connectivity" format="appended" RangeMin="" RangeMax="" offset="164" />
<DataArray type="Int64" Name="offsets" format="appended" RangeMin="" RangeMax="" offset="188" />
<DataArray type="UInt8" Name="types" format="appended" RangeMin="" RangeMax="" offset="212" />
</Cells>
</Piece>
</UnstructuredGrid>
<AppendedData encoding="base64">
_CAAAAAAAAAAxM6pX+5u2QA==CAAAAAAAAAAAAAAA0Lz4QA==CAAAAAAAAAADAAAAAAAAAA==CAAAAAAAAAADAAAAAAAAAA==CAAAAAAAAACQAAAAAAAAAA==GAAAAAAAAAAAAAAAAADwPwAAAAAAAAAAAAAAAAAAAAA=CAAAAAAAAAAAAAAAAAAAAA==CAAAAAAAAAABAAAAAAAAAA==AQAAAAAAAAAB
</AppendedData>
</VTKFile>