POSC Specifications: Epicentre Version 3.0 | Logical Data Model |
Fix typos found using a spell checker.
CHANGE ERP2_fix_typos (*<REMARK>CHANGE ERP2_fix_typos*) (*<CHANGE>Fix typos found using a spell checker.*) ALTER ENTITY activity; INVERSE ALTER update_collection (*<VERB>have updated the instances contained in*) (*<CHANGE>The verb phrase had been truncated because it was too long*); END_ENTITY; ALTER ENTITY data_collection; ALTER updated_by (*<VERB>have been updated by*) (*<CHANGE>The verb phrase had been truncated because it was too long*); END_ENTITY; ALTER ENTITY feature_boundary_part; (*<DESC>The portion of a recognized rock feature boundary having some distinguishing and unifying characteristics. It may be found within a particular local area, a singular or multiple wellbore points, in outcrop or a sample.*) END_ENTITY; ALTER ENTITY gas_lift_valve; (*<DESC>A device installed on the tubing string of a gas lift well completion that is sensitive to tubing and casing pressures, which cause the valve to open and close. The functioning of the valve is to allow gas to be injected into the fluid in the tubing in order to cause the fluid to rise to the surface.*) END_ENTITY; ALTER ENTITY grid_geometry_behavior; ALTER represent (*<VERB>be an equivalent representation of*); END_ENTITY; ALTER ENTITY grid_refinement_modification; (*<DESC>This describes a grid modification in which many elements (usually cells or faces) of the target grid are replaced by more elements from the source grid.*) END_ENTITY; ALTER ENTITY grid_structured; ALTER missing_element (*<DESC>This indicates the missing elements of the structured grid. Missing elements are excluded from the grid and cannot be assigned properties. The highest order of elements allowed in the grid must be used (i.e., cells in a 3D grid). For grids composed of other grids, the behavior is cumulative with the composed grid inheriting the behavior of the component grids. For example, in seismic, a 2D binset grid may have missing elements such that the grid is "L" shaped. If a 3D grid (cube) is formed using the 2D binset grid and a 1D vertical time grid then the "columns" of the cube should be considered missing.*); END_ENTITY; ALTER ENTITY local_rock_feature; ALTER earth_surface_feature (*<DESC>This is the earth surface feature that locates this local rock feature and can provide part of the identity of this local rock feature. For example, for the Viking Graben in the Gullfaks area, Gullfaks is the earth surface feature that provides part of the identification.*); END_ENTITY; ALTER ENTITY material_collection_station; (*<DESC>>A facility for collecting material samples. Equipment installed for this purpose includes bleed valves and shale shakers.*) END_ENTITY; ALTER ENTITY material_storage; (*<DESC>>The transient association that documents the storage of an object, such as equipment, in a general facility. *) END_ENTITY; ALTER ENTITY offshore_block_legal_survey_area; ALTER waterbottom_identifier AS water_bottom_identifier; END_ENTITY; ALTER ENTITY packer; ALTER maximum_pressure (*<DESC>The maximum pressure at which this packer is designed to operate.*); END_ENTITY; ALTER ENTITY product_flow_network_group ; (*<DESC>This is a group of product flow network units. This group may contain all or part of other product flow network units, and the composition and fractions of participation may change over time.*) END_ENTITY; ALTER ENTITY pty_average_earth_surface_elevation; ALTER earth_surface_feature (*<DESC>This is the area of the Earth that this land elevation or water depth is defined for.*); END_ENTITY; ALTER ENTITY pty_dry_gas_viscosity_point; ALTER data_value (*<DESC>The value of viscosity at a condition of pressure, temperature and gas gravity.*); END_ENTITY; ALTER ENTITY pty_effective_permeability_thickness; ALTER data_value (*<DESC>The value of the effective permeability thickness.*); ALTER well_completion (*<DESC>This designates the well completion that this effective permeability is a property of.*); END_ENTITY; ALTER ENTITY pty_elevation_difference; (*<DESC>The description of a change in elevation, such as between the inlet and outlet ports of a pfnu external connection. The elevation difference is always defined as positive upwards in the vertical direction and measured in the direction of the defined connection. For a pfnu external connection, this would be from the inlet to the outlet. *) ALTER pfnu_external_span_connection (*<DESC>This describes the external span connection that this elevation change describes.*); END_ENTITY; ALTER ENTITY pty_fluid_phase_ratio; ALTER fluid_phase (*<DESC>This designates the fluid phase used as the denominator of the ratio.*); END_ENTITY; ALTER ENTITY pty_fuel_mileage; (*<DESC>The distance traveled by a vehicle per volume of fuel.*) END_ENTITY; ALTER ENTITY pty_linear_thermal_expansion; ALTER data_value (*<DESC>The value of the linear thermal expansion coefficient, expressed as a length/length-degree_of_temperature.*); END_ENTITY; ALTER ENTITY pty_mass; (*<DESC>The measure of an object's resistance to acceleration.*) END_ENTITY; ALTER ENTITY pty_non_darcy_flow_factor; ALTER b_factor (*<DESC>This is the non Darcy flow coefficient (B) for stabilized gas well inflow. The flow equation using B is (mPi-mP) = BQ+FQ^2.*); ALTER f_factor (*<DESC>This is the non Darcy flow coefficient (F) for stabilized gas well inflow. The flow equation using F is (mPi-mP) = BQ+FQ^2.*); END_ENTITY; ALTER ENTITY pty_population_density; ALTER earth_surface_feature (*<DESC>This is the Earth surface feature for which this population density is defined.*); END_ENTITY; ALTER ENTITY pty_saturated_viscosity_point; (*<DESC>The viscosity of a saturated fluid at a condition of pressure and temperature. *) END_ENTITY; ALTER ENTITY pty_station_relative_location; (*<DESC> Defines the location of seismic stations relative to each other. Three values are required at each relevant node of the grid defined by attribute seismic station uid in the associated seismic geometry set. One of the values must be "seismic station uid" which specifies the reference station that a station is being positioned relative to. The two values "x" and "y" can be additionally defined to describe offline points using a right handed Cartesian coordinate system where the origin is at the reference station, the x-axis is along the line between the reference station and the next station in the direction of increasing "acquisition point index" and "z" is upward. Alternatively, the two values "azimuth" and one of either "range" or "chained distance" can be additionally defined. "Range" defines a horizontal distance and "chained distance" defines a distance along the surface. In order to locate the station represented by a node, one stands at the reference station and moves in the specified distance and direction.*) END_ENTITY; ALTER ENTITY pty_stratigraphic_thickness; ALTER rock_fluid_feature (*<DESC>This is the rock fluid feature for which this stratigraphic thickness is measured.*); END_ENTITY; ALTER ENTITY ref_epicentre_version; (*<DESC>This standard instances in this reference entity contain the version number and description of Epicentre releases. For example, this reference entity first occurred in Epicentre V2.2.*) END_ENTITY; ALTER ENTITY ref_gravel_pack_screen; (*<DESC>The reference entity that describes the types of screens used in gravel pack strings. Examples are ribbed, all-welded, grooved and wrapped-on-pipe.*) END_ENTITY; ALTER ENTITY ref_quantity_type; WHERE ALTER sri (*<DESC>The unit for range_unit_of_measure must be a member of the alternative_unit_of_measure set.*); END_ENTITY; ALTER ENTITY ref_recovery_process; (*<DESC>A method of recovering hydrocarbons that involves augmentation or enhancement of natural drive mechanisms in a reservoir, such as water flooding, pressure maintenance, steam soak, miscible injection, etc.*) END_ENTITY; ALTER ENTITY ref_unit_of_measure; INVERSE ALTER range_unit_for (*<DESC>These are the quantity types which use this unit of measure for its range lower and range upper values.*); END_ENTITY; ALTER ENTITY reserves; ALTER ref_recovery_process (*<DESC>The classification of the recovery process that was assumed for the estimation of the reserves, such as: natural reservoir energy, pressure maintenance, cycling, water flooding, thermal methods, chemical flooding, and miscible or immiscible displacement.*); ALTER reserves_category (*<DESC>This is the definitive classification of reserves that defines its fundamental meaning. This always points to a reserves_class defined within a formal hierarchy, usually be a governmental agency or standards organization. Additional reserves_classifications are intended to provide additional characterizations without changing this fundamental meaning.*); END_ENTITY; ALTER ENTITY reservoir; ALTER discovery_date (*<DESC>This is the date that the reservoir was officially discovered.*); END_ENTITY; ALTER ENTITY rock_fluid_feature; INVERSE ALTER pty_directional_mobility (*<DESC>This describes the directional mobility of the rock fluid feature.*); ALTER pty_net_to_gross_thickness_ratio (*<VERB>have a property of*); ALTER pty_stratigraphic_thickness (*<VERB>have a property of*); END_ENTITY; ALTER ENTITY seismic_acquisition_point; ALTER node_uid (*<DESC>Defines the uid value of the node that this point represents. This value must match a value in the attribute in the specified geometry set implied by attribute kind.*); END_ENTITY; ALTER ENTITY seismic_pick; ALTER seismic_data_set (*<VERB>be observed in*); END_ENTITY; ALTER ENTITY wellbore_component_facility ; INVERSE ALTER belongs_to_assembly (*<DESC>This points to the wellbore_component_facility assembly that this is a part of.*); ALTER connected_to (*<DESC>This gives the connections from this wellbore_component_facility to other instances of wellbore_component_facility. Do not use this to connect wellbore_component_facility to other wellbore_component_facilities that are part of the same wellbore_component_facility assembly, but rather use it to connect two different assemblies.*); END_ENTITY; ALTER ENTITY wellbore_component_facility_connection; (*<DESC>This entity describes the connection between two wellbore component facilities. It is not necessary to use this entity to describe components connected together to form an assembly, as the parts and assembly list relationship on wellbore component facility can be understood to contain this. Rather this should be used where, for example, two wellbore_component_facilities that are both assemblies are connected together, without one becoming part of the other. *) ALTER wellbore_component_facility (*<DESC>This is the designated wellbore_component_facility that this connection is described for. For example, to describe a packer connected to a casing_string, this attribute points to the packer.*); END_ENTITY; ALTER TYPE ndt_compaction_factor_curve (*<DESC>A data type used to describe the behavior of compaction factor as a function of pressure.*); END_TYPE; ALTER TYPE ndt_current_density_linear (*<DESC>This defines the domain for (electric) current density linear.*); END_TYPE; ALTER TYPE ndt_elastic_modulus (*<DESC>This defines the structure of the domain elastic modulus.*); END_TYPE; ALTER TYPE ndt_electromotive_force (*<DESC>This defines the domain for electromotive force.*); END_TYPE; ALTER TYPE ndt_geoidal_undulation (*<DESC>A data type that describes a surface (based on an ellipsoid) upon which the separation of a geoid and an ellipsoid can be described.*); END_TYPE; ALTER TYPE ndt_magnetic_moment (*<DESC>This defines the domain for magnetic moment.*); END_TYPE; ALTER TYPE ndt_preal4 (*<DESC>This describes the domain for positive (four byte) floating point values. Its value must be positive and less than +10**38, and it should have a minimum of 6 significant figures.*); END_TYPE; ALTER TYPE ndt_rotational_frequency (*<DESC>This defines the domain for rotational frequency.*); END_TYPE; ALTER TYPE ndt_undersaturated_compressibility_curve (*<DESC>The data type that describes fluid compressibility as a function of pressure, temperature and saturation pressure for an undersaturated fluid phase. This may be at a saturated (pressure .eq. saturation pressure) or undersaturated (pressure .gt. saturation pressure) condition.*); END_TYPE; END_CHANGE;