Sedimentation_parameters

 

Data Structure: Sedimentation_parameters

Description

Sedimentation parameters

Usage

Sedimentation_parameters     NUM=ival   where ival  is the data structure number

 

Description

Overview

The Sedimentation_parameters data structure allows the definition of the default sedimentation parameters to be applied to all sedimentation operations. This may be useful if majority of the sedimentation events are to be defined with identical sedimentation data. All the keyword data in this data structure may be overwritten with new data for particular sedimentation operation by specifying data for the equivalent keyword in the Sedimentation_data data structure.

 

 

Click to expand/collapseSedimentation_type    Sedimentation horizon type ('Absolute','Relative','Drape','Isopach','Structure')

Usage

Sedimentation_type

Character Name

 

 

Description

Defines the type of algorithm to be used for sedimentation. Valid types are:

"Absolute" - (Default) A sedimentation horizon must be defined (via Sedimentation_horizon) which fully defines the geometry of the surface of the deposited sediment. The surface of the deposited sediment is defined by the previous top surface, the projection of the lateral boundaries and the current position of the sedimentation horizon.

"Relative" - A sedimentation horizon must be defined (via Sedimentation_horizon) together with the layer thickness ( Reference_thickness) and reference location ( Reference_location). The sedimentation horizon is then positioned so the vertical thickness is correct at the reference location. The surface of the deposited sediment is defined by the previous top surface, the projection of the lateral boundaries and the current position of the sedimentation horizon.

"Drape" - Where a uniform thickness of material is added across the complete model. In this case only the thickness of the layer ( Reference_thickness) is required.

"Isopach" - A sedimentation horizon must be defined (via Sedimentation_horizon). The nodes of the sedimentation horizon then provide a set of reference locations (x coordinate) and thicknesses (y coordinate) that will define the geometry of the new deposited sediment on top of the model. It should be emphasised that the Y coordinates of the assigned sedimentation horizon are relative to the top surface to provide the deposited sediment thickness at each location.

"Structure" - Base layer is a structured mesh. All new mesh layers created (via Sedimentation_horizon) are also structured mesh.

 

Sedimentation_001

 

 

Click to expand/collapseDuration    Sedimentation duration

Usage

Duration

Real Value

 

 

Description

Defines the sedimentation duration. This is the total time associated with the sedimentation process. The duration defines the time over which loading associated with sedimentation (e.g. gravity) is applied.

 

Notes

The sedimentation duration cannot last beyond the end of the current control stage. If it is defined longer than the current control stage duration, the duration for the current sedimentation event will be set to finish at the end of the current control stage.

 

 

Click to expand/collapseNumber_steps    Number of sub-sedimentation increments

Usage

Number_steps

Integer Value

 

 

Description

Number of sub-sedimentation increments. For example, if a sediment thickness of 300m is to be deposited over 1.5Ma and Number_steps is set to 3, then the deposition will be split and carried out in 3 increments of 100m of 0.5Ma duration each.

 

 

Click to expand/collapseMaterial_number    Sedimentation material number

Usage

Material_number

Integer Value

 

 

Description

Defines the material ID number to be assigned to the sedimentation material. Either the Material_number or Material_name must be defined, the preferred keyword being Material_name. The material to be assigned must be defined via Material_data.

 

 

Click to expand/collapseMaterial_name    Sedimentation material name

Usage

Material_name

Character Name

 

 

Description

The name of the material to be assigned to the sedimentation material. Either the Material_number or Material_name must be defined, the preferred keyword being Material_name. The material to be assigned must be defined via Material_data.

 

 

Click to expand/collapseMaterial_file    Material file containing material data

Usage

Material_file

Character Name

 

 

Description

The name of the file (including file extension) containing the material data. Only required if the material data is defined in a separate .mat file that has not been included in the current material data file via Include.

 

 

Click to expand/collapseFacies_id    Facies ID number

Usage

Facies_id

Integer Value

 

 

Description

Facies ID number to be assigned to the sedimentation group. Alternatively the group may be assigned a material via Material_name.

 

 

Click to expand/collapseReference_group_number    Sedimentation group number

Usage

Reference_group_number

Integer Value

 

 

Description

The reference group is used to define the group options; i.e. element type, porous flow options, etc., that will be used when the group for the new sediment is created. The reference group can be specified by either Reference_group_number or Reference_group_name, the preferred keyword being Reference_group_name. If the reference group is not specified the first active group will be used.

 

Notes

The reference group must be an existing group defined in the data input but it does not necessarily have to be active in the model.

The group number of the sediment group is automatically assigned a number greater than the maximum group number of the existing groups.

The group name is automatically assigned to be the stratigraphy unit name ( Stratigraphy_unit_name ).

 

 

Click to expand/collapseReference_group_name    Sedimentation group name

Usage

Reference_group_name

Character Name

 

 

Description

The reference group is used to define the group options; i.e. element type, porous flow options, etc., that will be used when the group for the new sediment is created. The reference group can be specified by either Reference_group_number or Reference_group_name, the preferred keyword being Reference_group_name. If the reference group is not specified the first active group will be used.

 

Notes

The reference group must be an existing group defined in the data input but it does not necessarily have to be active in the model.

The group number of the sediment group is automatically assigned a number greater than the maximum group number of the existing groups.

The group name is automatically assigned to be the stratigraphy unit name ( Stratigraphy_unit_name ).

 

 

Click to expand/collapseReference_thickness    Layer thickness ('Drape' or 'Relative' cases)

Usage

Reference_thickness

Real Value

 

 

Description

Defines the thickness of the new sediment layer for the "Drape" and "Relative" sedimentation types.

"Thickness" - Layer thickness

 

Notes

For the "Relative" sedimentation type, the reference thickness defines the thickness at the reference location specified via Reference_location.

 

 

Click to expand/collapseMinimum_thickness    Layer thickness

Usage

Minimum_thickness

Real Value

 

 

Description

The minimum layer thickness below which no sedimentation will occur; i.e. if the evaluated layer thickness at a location is less than the minimum layer thickness no sediment will be deposited. Specification of a minimum layer thickness therefore prevents excessively thin elements being deposited in the model. If a minimum layer thickness is not specified then a default value is computed based on the target element size.

 

 

Click to expand/collapseMesh_size    Mesh size for generation of new stratigraphy

Usage

Mesh_size

Real Value

 

 

Description

Defines the target element size when generating the mesh for the deposited sediment. If the target mesh size is not specified, it is computed automatically based on the mesh size of the existing sediment.

 

 

Click to expand/collapseReference_location    Reference location for thickness offset evaluation

Usage

Reference_location

IDM=ival

 

 

Real Values

 

 

 

 

where

ival

Number of dimensions

Description

Reference location for thickness offset evaluation for the "Relative" sedimentation type. The reference location is defined by:

 

2-D

Location 1 - X coordinate

 

3-D

Location 1 - X coordinate

Location 2 - Y coordinate

 

 

Click to expand/collapseSediment_horizon_number    Sedimentation horizon number

Usage

Sediment_horizon_number

Integer Value

 

 

Description

Defines the sedimentation horizon number. A sedimentation horizon is required for the "Absolute", "Relative", "Isopach" and "Structure" sedimentation types.

 

Notes

If Sediment_horizon_name is specified then Sediment_horizon_number is not required. Sediment_horizon_name is the preferred keyword to use.

 

 

Click to expand/collapseSediment_horizon_name    Sedimentation horizon name

Usage

Sediment_horizon_name

Character Name

 

 

Description

Defines the sedimentation horizon name. A sedimentation horizon is required for the "Absolute", "Relative", "Isopach" and "Structure" sedimentation types.

 

Notes

If Sediment_horizon_number is specified then Sediment_horizon_name is not required. However, Sediment_horizon_name is the preferred keyword to use.

 

 

Click to expand/collapseTime_curve    Time curve name or number for gravity loading during sedimentation

Usage

Time_curve

Character Name

 

 

Description

Assigns a time curve to ramp up gravity during the sedimentation process. If a load curve is not assigned then the following will apply:

If a load curve is assigned in Gravity_data, this load curve will be used but with time scaled to the the sedimentation duration.

If a time curve is not assigned in Gravity_data, an S Curve over the sedimentation duration will be used.

 

 

Click to expand/collapseThermal_advection_flag    Flag to include thermal convection terms

Usage

Thermal_advection_flag

Integer Value

 

 

Description

Defines whether thermal convection is considered for the deposited unit. Valid values are:

0 - Do not include convection terms

1 - Include convection terms with Petrov/Galerkin streamline upwinding (default)

2 - Include convection terms without Petrov/Galerkin streamline upwinding

 

 

Click to expand/collapseCouple_horizon_flag    Coupled horizon flag

Usage

Couple_horizon_flag

Integer Value

 

 

Description

This flag allows the newly sedimented horizon to be coupled to remain flat in the Y direction (2-D) or the Z direction (3-D). It can be used to improve the stability of column deposition analysis with coarse meshes. Valid input values are:

0 - Do not apply couple freedoms to the new top surface (default)

1 - Apply couple freedoms in the vertical direction to the new top surface

 

 

Click to expand/collapseIsolated_element_flag    Flag for removal of isolated elements during deposition

Usage

Isolated_element_flag

Integer Value

 

 

Description

Flag for removal of isolated elements during deposition (currently only for structured hexahedral meshes). Valid values are:

0 - Do not remove isolated deposited elements

1 - Remove fully isolated deposited elements (Default)

2 - Remove fully isolated or elements connected to a single element

 

 

Click to expand/collapseOutput_flag    Flag for output of plot file after sedimentation

Usage

Output_flag

Integer Value

 

 

Description

Flag for output of plot file after sedimentation. Valid values are:

0 - Do not output plot file after sedimentation (default)

1 - Output plot file immediately after sedimentation

 

 

Click to expand/collapseNum_struct_divisions    Number of element divisions through the depth for 'Structure' type mesh deposition

Usage

Num_struct_divisions

Integer Value

 

 

Description

Number of element divisions through the depth for "Structure" type mesh deposition ( =1 default).