Output_list

Usage

Description

A list of output flags (0 - no output, 1 - output) for nodal data.

Nodal output flag items are:

• Location 1 - Displacements (Default 1)

• Location 2 - Velocity (Default 1)

• Location 3 - Pore pressure (Default 1)

• Location 4 - Temperature (Default 1)

• Location 5 - Fixity conditions (Default 0)

• Location 6 - Geomechanical field External forces (Default 0)

• Location 7 - Geomechanical field Internal forces (Default 0)

Notes

•By default Displacement, Velocity, Pore pressure and Temperature are output.

•If an item is selected for output then by default all the components of that type will be output. Individual components can be selected by defining the appropriate dataset.

Usage

Description

A list of output variables for nodal data. Valid data comprise:

• "Displacement" - Displacements (ON by default)

• "Velocity" - Velocity (ON by default)

• "Pore_pressure" - Pore pressure (ON by default)

• "Temperature" - Temperature (ON by default)

• "Mech_fixity" - Geomechanical field Fixity conditions (OFF by default)

• "Mech_ext_force" - Geomechanical field External forces (OFF by default)

• "Mech_int_force" - Geomechanical field Internal forces (OFF by default)

Notes

•By default Displacement, Velocity, Pore pressure and Temperature are output.

•If an item is selected for output then by default all the components of that type will be output. Individual components can be selected by defining the appropriate dataset.

Usage

Description

A list of output flags (0 - no output, 1 - output) for element data.

Element output flag items are:

• Location 1 - Stress

• Location 2 - Strain

• Location 3 - State variables

• Location 4 - Stress invariants

• Location 5 - Strain invariants

• Location 6 - Element variables

• Location 7 - Porous flow velocity

• Location 8 - Porous flow gradient

• Location 9 - Thermal flux

• Location 10 - Thermal gradient

• Location 11 - Error and Adaptivity data

• Location 12 - Pore pressure (element)

• Location 13 - Temperature (element)

Notes

•By default all items are output.

•If an item is selected for output then by default all the components of that type will be output. Individual components can be selected by defining the appropriate dataset.

Usage

Description

A list of output flags (0 - no output, 1 - output) for state variable data.

State variable flag items are:

• Location 1 - Elastic state variables

• Location 2 - Poroelastic state variables

• Location 3 - Plastic state variables

• Location 4 - Hardening state variables

• Location 5 - Plastic anisotropy state variables

• Location 6 - Viscoplastic state variables

• Location 7 - Diagenesis state variables

• Location 8 - Regularization state variables

• Location 9 - Fracture state variables

• Location 10 - Decompaction state variables

• Location 11 - Porous flow state variables

• Location 12 - Thermal state variables

• Location 13 - Reservoir state variables

• Location 14 - Hydrocarbon kinetics state variables

Notes

•By default all items are output.

•If an item is selected for output then by default all the components of that type will be output. Individual components can be selected by defining the appropriate dataset.

Usage

Description

Labels defining the stress components required in plot file. Valid labels are:

• Strs_xx - Effective Stress in X direction

• Strs_yy - Effective Stress in Y direction

• Strs_zz - Effective Stress in Z direction

• Strs_xy - Shear Stress in XY direction

• Strs_yz - Shear Stress in YZ direction (3D only)

• Strs_zx - Shear Stress in ZX direction (3D only)

• Tstrs_xx - Total Stress in X direction

• Tstrs_yy - Total Stress in Y direction

• Tstrs_zz - Total Stress in Z direction

Usage

Description

Labels defining the strain components required in plot file. Valid labels are:

• Strn_xx - Direct Strain in X direction

• Strn_yy - Direct Strain in Y direction

• Strn_zz - Direct Strain in Z direction

• Strn_xy - Shear Strain in XY direction

• Strn_yz - Shear Strain in YZ direction (3-D only)

• Strn_zx - Shear Strain in ZX direction (3-D only)

Usage

Description

Labels defining the stress invariants required in plot file. Valid labels are:

• Press - Effective mean stress (p')

• Efstrs - Deviatoric effective stress (q)

• Strs_p1 - Principal stress 11 - (most tensile)

• Strs_p2 - Principal stress 22 - (intermediate)

• Strs_p3 - Principal stress 33 - (Most compressive)

• Tstrs_p1 - Total Principal Stress 1

• Tstrs_p2 - Total Principal Stress 2

• Tstrs_p3 - Total Principal Stress 3

• Teffmean - Total Mean Stress

• Tstrp3p1 - Ratio Total Princ. Stress 3/1 Geomechanical convention (most Tensile/most Compressive)

• Tstrp2p1 - Ratio Total Princ. Stress 2/1 Geomechanical convention (intermediate/most Compressive)

• Tstrp2p3 - Ratio Total Princ. Stress 2/3 Geomechanical convention (intermediate/most Tensile)

• Tstrszp1 - Ratio Total Stress ZZ/Princ. Stress 1 Geomechanical convention (vertical/most Compressive)

• Strs_rsr - RSR (Regional Stress Regime)

Usage

Description

Labels defining the strain invariants required in plot file. Valid labels are:

• Vol_stn - Volumetric strain

• Efstrn - Deviatoric effective strain

• Strn_p1 - Principal strain 11 - (most tensile)

• Strn_p2 - Principal strain 22 - (intermediate)

• Strn_p3 - Principal strain 33 - (Most compressive)

Usage

Description

Labels defining the element values required in plot file. The element values are dependent on the field type and in some cases whether the variable is relevant for the chosen simulation options. Valid labels are:

• Elt_volu - element volume (3-D) or area (2-D)

• Porosity - element porosity

• Elt_pore - element average pore pressure

• Elt_temp - element average temperature

• Mat_no - Material assignment number

• Group_no - Group assignment number

• Elt_mass - Element mass

• Crit_tim - Element critical time step

• Elt_dens - Element density

• Por_geoc - Current pore pressure in geomechanical field (Coupled analysis with undrained split only)

• Por_Geot - Current pore pressure in geomechanical field (Coupled analysis with undrained split only)

• Cou_stif - Current Coupling Bulk modulus in geomechanical field (Coupled analysis with undrained split only)

Usage

Description

Labels defining the nodal variables in the porous flow field required in history file. Valid labels are:

• Pore_nod - Pore pressure at nodes in porous flow field

• Pore_prs - Prescribed pore pressure at nodes in porous flow field

• Pore_fix - Fixity of nodes in the pore pressure field

Usage

Description

Labels defining the porous flow field data required in plot file. Valid labels are:

• Pf_veloc - Fluid flow rate (flow/total volume) components (X, Y in 2D and X, Y, Z in 3D)

• Pf_grad - Pore pressure gradient components (X, Y in 2D and X, Y, Z in 3D)

Usage

Description

Labels defining the nodal variables in the thermal field required in history file. Valid labels are:

• Temp_nod - Temperature at nodes in thermal field

• Temp_prs - Prescribed temperature at nodes in thermal field

• Temp_fix - Fixity of nodes in the thermal field

Usage

Description

Labels defining the thermal field data required in plot file. Valid labels are:

• Tm_veloc - Thermal flux components (X, Y in 2-D and X, Y, Z in 3-D)

• Tm_grad - Thermal gradient components (X, Y in 2-D and X, Y, Z in 3-D)

Usage

Description

Labels defining the elastic state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• Young - Young's Modulus

• Poiss - Poisson's Ratio

• Young11 - Youngs Modulus E(11)

• Young22 - Youngs Modulus E(22)

• Young33 - Youngs Modulus E(33)

• Poiss12 - Poissons Ratio v(12)

• Poiss23 - Poissons Ratio v(23)

• Poiss31 - Poissons Ratio v(31)

• Shear12 - Shear Modulus G(12)

• Shear23 - Shear Modulus G(23)

• Shear31 - Shear Modulus G(31)

Usage

Description

Labels defining the poroelastic state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• E_kappa - Unloading Modulus

Usage

Description

Labels defining the plastic state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• P_flag - Plasticity flag

• P_strn - Effective Plastic Strain

• P_strn_r - Effective Plastic Strain Rate

• P_strnv - Plastic Volume Strain

• P_strnxx - Plastic Strain XX

• P_strnyy - Plastic Strain YY

• P_strnzz - Plastic Strain ZZ

• P_strnxy - Plastic Strain XY

• P_strnyz - Plastic Strain YZ

• P_strnzx - Plastic Strain ZX

• P_epvcom - Max. compressive volume strain

• P_epvten - Max. tensile volume strain

• P_conver - Convergence Flag

• P_comc - Pre-Consolidation Pressure

• P_tenc - Tensile Intercept

• P_state - Plastic state

• P_stten - Plastic state - Tension

• P_stshr - Plastic State - Shear

• P_stcap - Plastic State - Cap

Usage

Description

Labels defining the hardening state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• H_lambda - Hardening modulus

Usage

Description

Labels defining the plastic anisotropy state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information)

• Pa_alpha - Alpha Rotational Hardening

• Pa_m - m(Alpha) Hardening parameter

• Pa_ad_xx - Alpha(d)XX Rotational hardening

• Pa_ad_yy - Alpha(d)YY Rotational hardening

• Pa_ad_zz - Alpha(d)ZZ Rotational hardening

• Pa_ad_xy - Alpha(d)XY Rotational hardening

• Pa_ad_yz - Alpha(d)YZ Rotational hardening

• Pa_ad_zx - Alpha(d)ZX Rotational hardening

Usage

Description

Labels defining the viscoplastic state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information)

• V_flag - Viscoplastic state

• V_strn - Viscoplastic Strain

• V_strn_r - Viscoplastic Strain Rate

• V_strnv - Viscoplastic Volume Strain

• V_strnxx - Viscoplastic Strain XX

• V_strnyy - Viscoplastic Strain YY

• V_strnzz - Viscoplastic Strain ZZ

• V_strnxy - Viscoplastic Strain XY

• V_strnyz - Viscoplastic Strain YZ

• V_strnzx - Viscoplastic Strain ZX

• V_strs - Viscoplastic Stress

• V_viscos - Viscoplastic Viscosity

Usage

Description

Labels defining the porous flow state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data and Fluid_properties for more information). Possible variables are:

• Flu_satu - Fluid saturation

• Biot_con - Biot constant

• Flu_visc - Fluid viscosity

• Flu_dens - Fluid density

• Perm_e - Isotropic permeability

• Perm_x - Permeability in x direction

• Perm_y - Permeability in y direction

• Perm_z - Permeability in z direction

• Perm_m - Permeability multiplier

• Storty - Storativity

• Knd_num - Knudsen number

• knd_rar - Knudsen rarefaction coefficient

• Knd_mul - Knudsen permeability multiplier

• Knud_numx - Knudsen number in X direction

• Knud_numy - Knudsen number in Y direction

• Knud_numz - Knudsen number in Z direction

• Knud_rarx - Knudsen rarefaction coefficient in X direction

• Knud_rary - Knudsen rarefaction coefficient in Y direction

• Knud_rarz - Knudsen rarefaction coefficient in Z direction

• Knud_mulx - Knudsen permeability multiplier in X direction

• Knud_muly - Knudsen permeability multiplier in Y direction

• Knud_mulz - Knudsen permeability multiplier in Z direction

Usage

Description

Labels defining the themal flow state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• Condb - Bulk conductivity

• Condb_x - Bulk conductivity in X

• Condb_y - Bulk conductivity in Y

• Condb_z - Bulk conductivity in Z

• Sheatb - Bulk specific heat

• Condg - Grain conductivity

• Condg_x - Grain conductivity in X

• Condg_y - Grain conductivity in Y

• Condg_z - Grain conductivity in Z

• Sheatg - Grain specific heat

• Condf - Fluid conductivity

• Sheatf - Fluid specific heat

• Peclet - Peclet number

Usage

Description

Labels defining the regularization state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information)

• Reg_fact - Regularization factor

Usage

Description

Labels defining the diagenesis state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• C_poros - Non-Mechanical Porosity Change

• C_poros1 - Non-Mechanical Porosity Change - Reaction 1

• C_poros2 - Non-Mechanical Porosity Change - Reaction 2

• C_poros3 - Non-Mechanical Porosity Change - Reaction 3

• C_poros4 - Non-Mechanical Porosity Change - Reaction 4

Usage

Description

Labels defining the thermal expansion state variables required in plot file. The valid data is dependent on the specific models being deployed (see Material_data for more information). Possible variables are:

• T_bexcof - Thermal Expansion Coeff

• T_bexcox - Thermal Expansion Coeff in X

• T_bexcoy - Thermal Expansion Coeff in Y

• T_bexcoz - Thermal Expansion Coeff in Z

Usage

Description

Labels defining the fracture state variables required in plot file. The valid data is dependent on the specific models being deployed (see Fracture_data for more information).

• F_actflg - Fracture Activation Flag

• F_space - Fracture Spacing

• F_kn - Fracture Normal Stiffness

• F_dispn - Fracture Normal Displacement

• F_nstrs - Fracture Normal Stress

• F_kn0 - Fracture Initial Normal Stiffness

• F_apert0 - Fracture Initial Normal Displacement

• F_nstrs0 - Fracture Initial Normal Stress

• F_dispmx - Fracture Max. Normal Displacement

• F_nstfmx - Fracture Max. Normal Stiffness

• F_ks - Fracture Shear Stiffness

• F_disps1 - Fracture Shear Displacement 11

• F_disps2 - Fracture Shear Displacement 22

• F_sstrs1 - Fracture Shear Stress 11

• F_sstrs2 - Fracture Shear Stress 22

• F_sflag - Fracture Shear State

• F_syield - Fracture Shear Strength

• F_cohes - Fracture Shear Cohesion

• F_frict - Fracture Shear Friction Angle

• F_cohesi - Fracture Shear Initial Cohesion

• F_fricti - Fracture Shear Initial Friction Angle

• F_sstfmx - Fracture Maximum Shear Stiffness

• F_angle1 - Fracture 1 Angle

• F_state1 - Fracture 1 State (normal)

• F_ft1 - Fracture 1 Strength (normal)

• F_nstrs1 - Fracture 1 Stress (normal)

• F_nstrn1 - Fracture 1 Strain (normal)

• F_time1 - Fracture 1 Initiation time

• F_perm1 - Fracture 1 Permeability

• F_angle2 - Fracture 2 Angle

• F_state2 - Fracture 2 State (normal)

• F_ft2 - Fracture 2 Strength (normal)

• F_nstrs2 - Fracture 2 Stress (normal)

• F_nstrn2 - Fracture 2 Strain (normal)

• F_time2 - Fracture 2 Initiation time

• F_perm2 - Fracture 2 Permeability

• F_edamg1 - Fracture 1 Damaged elastic modulus

• F_edamg2 - Fracture 2 Damaged elastic modulus

• F_peak1 - Fracture 1 Peak tensile strength

• F_peak2 - Fracture 2 Peak tensile strength

• F_damfac - Fracture Damage Factor

• F_psang1 - Fracture 11 Rot-Crack Angle

• F_dporo - Porosity Change

• F_mstrs - Effective Mean Stress

• F_poro - Porosity

• F_mporo - Maximum porosity

• F_dporot - Total Porosity Change

• F_dporo0 - Initial Porosity Change

Usage

Description

List of reservoir state variables for output for coupled Reservoir-ParaGeo analysis (default all variables). Valid variables are:

• Gas_dens - Gas Density

• Gas_sat - Gas Saturation

• Mix_dens - Mixture Density

• Mix_sat - Mixture Saturation

• Oil_dens - Oil Density

• Oil_sat - Oil Saturation

• Wat_dens - Water Density

• Wat_sat - Water Saturation

• Cp_geo - Pressure Compressibility (geomechanical)

• Cp_res - Pressure Compressibility (reservoir)

• Cp_mult - Pressure Compressibility Mult

• Cp_mtot - Pressure Compressibility Total

• Ct_geo - Thermal Compressibility (geomechanical)

• Ct_res - Thermal Compressibility (reservoir)

• Ct_mult - Thermal Compressibility Mult

• Ct_mtot - Thermal Compressibility Total

• Per_mult - Permeability Multiplier

• Pore_geo - Geomechanical Porosity

• Pore_res - Reservoir Porosity

• Res_dom - Domain

• Pres_res - Pore Pressure

• Temp_res - Temperature

• Res_actf - Active Cell Factor

• Res_mapf - Mapped Cell Flag

• Por_mult - Pore Volume multiplier

• Por_mtot - Pore Volume multiplier total

Usage

Description

Labels defining the contact data required in plot file. Valid labels are:

• Node_num - Contact Node number

• Elem_num - Contact Element number

• Line_num - Contact Line number

• Surf_num - Contact Surface number

• Grou_num - Contact Group number

• C_depth - Contact Depth

• C_pore - Contact Pore pressure

• C_temp - Contact Temperature

• Domain - Contact Domain number

• Prt_geom - Contact Part geometry set number

• Prt_line - Contact Part line number

• Prt_surf - Contact Part surface number

• Prt_elem - Contact Part facet number

• C_strsv - Contact Stress Vector

• C_strnm - Contact Normal Stress Vector

• C_strne - Contact Normal Effective Stress Vector

• C_strtm - Contact Tangential Stress Vector

• C_fxanm - Contact Flow Normal FluxA Vector

• C_fxbnm - Contact Flow Normal FluxB Vector

• C_fxtng - Contact Flow Tangential Flux Vector

• C_thanm - Contact Thermal Normal FluxA Vector

• C_thbnm - Contact Thermal Normal FluxB Vector

• C_norm - Contact Normal Vector

Usage

Description

Labels defining the contact data required in plot file. Valid labels are:

• C_cont_f - Contact Flag

• C_nrm_p0 - Contact Normal Penalty

• C_nrm_pn - Contact Normal Stiffness

• C_nrm_gn - Contact Normal Penetration

• C_tng_p0 - Contact Tangential Penalty

• C_tng_pn - Contact Tangential Stiffness

• C_slip_f - Contact Slip Stick

• C_frict - Contact Friction Coefficient

• C_cohes - Contact Cohesion

• C_sl_cum - Contact Cumulative Slip/Offset

• C_sl_net - Contact Net Slip/Offset

• C_sl_cmb - Contact Combined Slip/Offset

• C_sl_max - Contact Max. Net Slip/Offset

• C_rbd_fg - Contact Rebonding flag

• C_mx_shr - Contact Maximum Shear Stress

• C_qprat - Contact Effective Stress Ratio

• C_pslip - Contact Nonlinear Slip/Offset

• C_adh_p0 - Contact Adhesion Penalty

• C_adh_pn - Contact Adhesion Stiffness

• C_adh_sr - Contact Adhesion Stress

• C_adh_yd - Contact Adhesion Strength

• C_Bondfg - Contact Bonding Flag

• C_gn_max - Contact Maximum Gap

• E_soft - Contact Softening Modulus

• C_t_max - Contact Maximum Shear Strength

• C_st_max - Contact Maximum Adhesive Strain

• C_strsnm - Contact Normal Total stress

• C_strsne - Contact Normal Effective stress

• C_strstn - Contact Tangential stress vector

• C_tx - Contact Tangential Force Tx

• C_ty - Contact Tangential Force Ty

• C_tz - Contact Tangential Force Tz

• C_por_pr - Contact Pore Pressure

• C_nfl_c1 - Contact Normal Flow Conductivity

• C_nfl_c2 - Contact Normal Flow Conductivity FK

• C_nth_c1 - Contact Thermal Conductivity

• C_nth_c2 - Contact Thermal Conductivity FK

• C_tfl_co - Contact Tangential Flow Conductivity

• C_tfl_wi - Contact Tangential Flow Width

Notes

•Contact flag "C_cont_f" (0 =No contact, 1 =Compressive contact (with penetration), - 1 =Adhesive contact (with adhesive separation)

•Contact slip stick flag "C_slip_f" (1 =Sticking contact, 2 =Slip/Contact with sliding)

•Contact bonding flag "C_Bondfg" (0 =Bonded, 1 =Damaged/Debonding, 2 =Debonded fully (i.e. Contact_flag =0 when this happens))

Usage

Description

Flag defining whether principal values are output as components or as a tensor. Valid values are:

• 0 - Output components and vector (default)

• 1 - Output tensor

• 2 - Output principal components

• 3 - Output principal components as 3 vectors

Usage

Description

List of flags indicating the Principal value data to be written to the plot file. Principal value output flags may be defined as 0 - not output, 1 - output. The output flags are:

• Location 1 - Output principal components (Output by default)

• Location 2 - Output principal components as vectors (Output by default)

• Location 3 - Output tensor (No output by default)

Usage

Description

Flag defining whether the depth should be written to the plot file

• 0 - No output

• 1 - Output depth (default if stratigraphy is defined)

Usage

Description

Flag defining whether hydrostatic and over pressure should be written to the plot file:

• 0 - No output

• 1 - Output depth (default if stratigraphy is defined and the pore pressure field is active)

Usage

Description

Flag defining type of fluid flux output. Valid values are:

• 1 - Output fluid velocity only (default)

• 2 - Output fluid flux only

• 3 - Output fluid velocity and flux

Usage

Description

Flag indicating whether a plot file should be output after sedimentation of new material

• 0 - No output of plot file after sedimentation (default)

• 1 - Output of plot file after sedimentation

Usage

Description

Flag indicating whether a plot file should be output after fault insertion or fault seeding

• 0 - No output of plot file after fault insertion (default)

• 1 - Output of plot file after fault insertion

Usage

Description

Labels defining the hydrocarbon kinetics state variables required in plot file. The possible variables are:

• K_VR - Kinetic Vitrinite reflectance

• K_PI - Kinetic PI Production index

• K_HI - Kinetic HI Hydrocarbon index

• K_TR - Kinetic TR Transformation ratio

• K_CO - Kinetic CO Concentration of oil

• K_CG - Kinetic CG Concentration of gas

• K_CKO - Kinetic CKO Concentration of kerogen converted to oil

• K_CKG - Kinetic CKG Concentration of kerogen converted to gas

• K_CKI - Kinetic CKI Concentration of inert kerogen

• K_CGO - Kinetic CGO Concentration of oil converted to gas

• K_COE - Kinetic COE Concentration of oil expelled

• K_CGE - Kinetic CGE Concentration of gas expelled

• K_HC_DEN - Kinetic Hydrocarbon density

• K_CHCE_N - Kinetic Concentration of hydrocarbon expelled at time table

• K_CK0 - Kinetic CK0 Concentration of kerogen converted to oil at time 0

• K_KTR - Kinetic KTR Kerogen transformation ratio

• K_COTOT - Kinetic Total oil (CO + generated)

• K_PORSTY - Kinetic Kerogen porosity

• K_KERTYP - Kinetic Kerogen identifier number

• K_TOC - Kinetic TOC Total organic carbon by weight