| Name | Basic_Core_Analysis |
|---|---|
| Entity Type | Table |
| Description | Basic core analysis is the most commonly performed analysis of a rock sample. It is an activity normally carried out on plugs or whole core segments. It typically generates a set of measurements that include porosity, permeability, fluid saturation, and a lithologic description. |
| Submodel | Rock_Sample_Analysis |
| Entity Scope | Project |
| Primary Key | Id |
| Natural Key | Rock_Sample_Id , Basic_Core_Analysis_Type , Analysis_Order_Number , Lab_Name , Analyst_List_Txt , Start_Date , Existence_Kind , Version |
| Generalizations | Rock_Sample_Analysis , Activity , Entity , IT_Object , Tracked_Object |
| Specializations |
| Name | Value Domain / Measurement | Description | Required / Default | Type |
|---|---|---|---|---|
| Activity_State | STRING64 NA |
The current state, or status, of the activity. Activity state is a refinement of the lifecycle indicator Existence_Kind. For example, a drilling job whose Existence_Kind is "Actual" could have an activity state of "turning to the right", "suspended due to weather", or "tool makeup or breakdown". An activity whose Existence_Kind is "Required" could have State values like "under investigation", "proposed" and "AFE approved". Note: The valid list of activity states will vary from one kind of activity to another, so the values entered into this column are not validated via a lookup table. | No |
VARCHAR2(64) |
| Activity_Template_Id | Activity_Template |
The Activity is an activation of, and is characterized by the associated Activity_Template. | No |
NUMBER(38) |
| Analysis_Order_Number | int No_Unit |
A number that identifies the order of the sample analysis for a particular sample. I.e., if this is the 1st analysis performed on the sample, the value should be 1. If it is the 2nd analysis, the value should be 2, etc. | Yes |
NUMBER(10) |
| Analyst_List_Txt | STRING255 NA |
Free-form text used to specify the analyst or list of analysts who performed the analysis. | No |
VARCHAR2(255) |
| Basic_Core_Analysis_Type | R_Basic_Core_Analysis |
A value that represents the type of basic core analysis performed. Examples are: Basic Core Plug Analysis, Basic Full Diameter Core Analysis, Basic Sidewall Core Analysis, etc.. | Yes |
VARCHAR2(64) |
| Bulk_Vol_Analysis_Method | R_Bulk_Vol_Analysis_Meth |
The bulk volume analysis method utilized to determine the values for porosity. Example methods include; Mercury Displacement and Caliper Measurement. | No |
VARCHAR2(64) |
| Confining_Temperature | double Temperature |
A measurement that represents the value of the confining temperature under which the analysis was performed. | No |
NUMBER |
| Density_Analysis_Method | R_Density_Analysis_Meth |
The analysis method utilized to determine the values for bulk density. Example methods include: Comparison to Density log and Balance Measurement. | No |
VARCHAR2(64) |
| Digital_Format_Avail_Flag | boolean NA |
Specifies whether or not the sample analysis is available in digital format. "1" = sample analysis is available in digital format. "0" = sample analysis is not available in digital format. | No |
NUMBER(1) |
| Duration | double Time |
The time taken for the laboratory test or procedure. It cannot be derived from the time interval between the Start_Date and the End_Date. | No |
NUMBER |
| End_Date | DATE NA |
The date and time at which the activity will end or did end. For planned activities, this would be expected end date. | No |
DATE |
| Existence_Kind | REF_EXISTENCE_KIND NA |
A reference value that describes the state of existence in the lifecycle of the entity, for example, Planned, Predicted, Required, Simulated, and Actual. | Yes Actual |
VARCHAR2(64) |
| External_Reference | STRING64 NA |
A value that is used by an external organization to reference this activity. For example, if an external organization is hired to perform this activity, this column could be used to store the work order or purchase order number that organization uses to reference this activity. | No |
VARCHAR2(64) |
| GUID | STRING128 NA |
Globally Unique IDentifier for an instance of a class. This GUID is not generated by the database, but is the GUID used by the application on first access of this object. Use of this property is optional and completely under the control of application developers. | No |
VARCHAR2(128) |
| Grain_Vol_Analysis_Method | R_Grain_Vol_Analysis_Meth |
The grain volume analysis method utilized to determine the values for matrix volume. Example methods include: Boyles Law (double cell) and Disaggregated Sample Grain Density. | No |
VARCHAR2(64) |
| Id | ID No_Unit |
Unique identifier for this entity. | Yes |
NUMBER(38) |
| Insert_Date | DATE NA |
Date the entity was created in the repository | No |
DATE |
| Insert_User | STRING64 NA |
The name of the user responsible for the creation of this entity in the repository. | No |
VARCHAR2(64) |
| Internal_Reference | STRING64 NA |
A value that is used internally within the organization to reference this activity. | No |
VARCHAR2(64) |
| Jacketing_Material | R_Jacketing_Material |
A value that represents the type of the jacketing material used to provide stability to the sample during analysis. Examples include Hassler Sleeve, Rubber Sleeve, or Teflon Sleeve. | No |
VARCHAR2(64) |
| Lab_Business_Associate_Id | Business_Associate |
The business associate ID of the lab who performed the sample analysis. | No |
NUMBER(38) |
| Lab_File_Number | CODE NA |
The file number assigned to the analysis by the lab. | No |
VARCHAR2(64) |
| Lab_Name | CODE NA |
The name of the lab who performed the sample analysis. | No |
VARCHAR2(64) |
| Name | ENTITY_NAME NA |
The name given to any object or data item, e.g. Name of Well, Name of Field, etc. | No |
VARCHAR2(255) |
| Original_Source | STRING64 NA |
The name of the person, Organization or project source that originally provided this entity, e.g. "IHS-EnergyData" or "FinderUpper Stratton Deeper Pool 15" | No |
VARCHAR2(64) |
| Perm_Analysis_Equipment_Id | Generic_Facility |
The piece of analysis equipment utilized to determine the values for permeability. Example values are: High Pressure Axial Flow Permeameter, Full-Diameter Radial Flow Permeameter and Probe Permeameter. | No |
NUMBER(38) |
| Perm_Analysis_Fluid_Id | Generic_Material |
The name of the type of fluid used during permeability analysis. | No |
NUMBER(38) |
| Perm_Analysis_Method | R_Perm_Analysis_Meth |
The analysis method utilized to determine the values for permeability. Example methods include Steady State and Unsteady State. | No |
VARCHAR2(64) |
| Perm_Confining_Stress | double Pressure |
The amount of confining stress, or load per unit area, inflicted on the rock sample during permeability analysis. | No |
NUMBER |
| Perm_Stress_Appl_Method | R_Stress_Application_Meth |
The type of the stress application method applied to a sample during permeability analysis. A stress application method is used to apply confining stress to a sample during sample analysis. Examples are: isostatic stress, triaxial stress, biaxial stress, or uniaxial strain. | No |
VARCHAR2(64) |
| Pore_Vol_Analysis_Method | R_Pore_Vol_Analysis_Meth |
The pore volume analysis method utilized to determine the values for porosity. Example methods include; Boyles Law (single cell) and Summation of Fluids. | No |
VARCHAR2(64) |
| Porosity_Analysis_Equipment_Id | Generic_Facility |
The piece of analysis equipment utilized to determine the values for porosity. Example values are Archimedes Mercury Immersion Apparatus, and Volumetric Mercury Displacement Pump. | No |
NUMBER(38) |
| Porosity_Analysis_Fluid_Id | Generic_Material |
The name of the type of fluid used during porosity analysis. | No |
NUMBER(38) |
| Porosity_Confining_Stress | double Pressure |
The amount of confining stress, or load per unit area, inflicted on the rock sample during porosity analysis. | No |
NUMBER |
| Porosity_Stress_Appl_Method | R_Stress_Application_Meth |
The type of stress application method applied to a sample during porosity analysis. A stress application method is used to apply confining stress to a sample during sample analysis. Examples are: isostatic stress, triaxial stress, biaxial stress, or uniaxial strain. | No |
VARCHAR2(64) |
| Produced_By | STRING64 NA |
ID of the activity that was executing when the entity was created, for data created programmatically. | No |
VARCHAR2(64) |
| Purpose | STRING255 NA |
A description of purpose of the activity or its stage | No |
VARCHAR2(255) |
| Remarks | STRING2000 NA |
Any type of remarks added to an entity instance. | No |
VARCHAR2(2000) |
| Restored_State_Reserv_Anal_Id | Reservoir_Analysis |
A sequence-generated identifier that uniquely identifies the reservoir analysis containing the properties representing the in situ reservoir conditions. The fundamental objective of core analysis is to obtain data representative of in situ reservoir rock properties. A reservoir analysis provides the in situ stress state as a target for approximating reservoir stresses in laboratory. Then Basic and SCAL measurements can be made to obtain values closer to expected in situ reservoir permeabilities and porosities via a restored state analysis. | No |
NUMBER(38) |
| Rock_Sample_Id | Rock_Sample |
The rock sample on which this analysis was performed. | Yes |
NUMBER(38) |
| SDAT_Label | int No_Unit |
Label used by the security system for entitlements. SDAT is Secure Data Access Technology. | No |
NUMBER(10) |
| Sample_State_Desc | REMARKS_STR NA |
Text used to describe a lab analysts interpretation of the state of a sample at the time of analysis. For example, whether the oil/salt has been extracted, etc.. | No |
VARCHAR2(999) |
| Sat_Analysis_Equipment_Id | Generic_Facility |
The piece of analysis equipment utilized to determine the values of the fluid saturation. Example values are Stainless Steel Retort and Dean Stark Tube. | No |
NUMBER(38) |
| Sat_Analysis_Fluid_Density | double Density |
A measurement that represents the value of the density of the fluid used in the saturation analysis. | No |
NUMBER |
| Saturation_Analysis_Fluid_Id | Generic_Material |
The name of the type of fluid used during saturation analysis. | No |
NUMBER(38) |
| Saturation_Analysis_Method | R_Saturatn_Analysis_Meth |
The analysis method utilized to determine the values for fluid saturations. Example methods include: Distillation Extraction and High Temperature Retort. | No |
VARCHAR2(64) |
| Sleeve_Durometer_Measure | double Length |
A measurement that represents the value of the sleeve durometer (i.e., hardness of the sleeve) used during permeability analysis. | No |
NUMBER |
| Source | STRING64 NA |
Name of the person or organization responsible for this entity"s E and P content and quality. Not the data technologist or IT expert creating the entity, for which see IT_Object.Insert_User and Update_User. | No |
VARCHAR2(64) |
| Start_Date | DATE NA |
The date and time at which the activity will start or did start. For planned activities, this would be expected start date. | No |
DATE |
| Transient_Period | R_Transient_Period |
Indicates whether the activity is executed daily, monthly, on demand, etc. | No |
VARCHAR2(64) |
| Triggering_Event_Id | Event |
The identifier of the event that triggered the start of this activity. Events can trigger activities. For example, an explosion event could trigger a firefighting activity. Note that this value should not conflict with, or be confused with, the value in Activity_Status.Triggering_Event. | No |
NUMBER(38) |
| Update_Date | DATE NA |
Date of the most-recent modification to the entity. | No |
DATE |
| Update_User | STRING64 NA |
The name of the user responsible for the last modification to this entity. | No |
VARCHAR2(64) |
| Version | STRING255 NA |
The form or variant of the entity. | Yes 1 |
VARCHAR2(255) |
| Cardinality | Entity |
|---|---|
| One | Basic_Analysis_Result_Set |
| From Entity | Link | Description | Implementation Technique | Required |
|---|---|---|---|---|
| Plug_Analysis_DOV | Basic_Core_Analysis | READ ONLY: Unique identifier for the basic core analysis. | Cascade | No |
| SCAL_Analysis | Basic_Core_Analysis | The basic core analysis that was performed on this sample while it was in the same state as during this SCAL analysis. | Restrict | No |
| Link | To Entity | Description | Implementation Technique | Required |
|---|---|---|---|---|
| Perm_Analysis_Method | R_Perm_Analysis_Meth | The analysis method utilized to determine the values for permeability. Example methods include Steady State and Unsteady State. | Restrict | No |
| Triggering_Event | Event | _ | Nullify | No |
| Pore_Vol_Analysis_Method | R_Pore_Vol_Analysis_Meth | The pore volume analysis method utilized to determine the values for porosity. Example methods include; Boyles Law (single cell) and Summation of Fluids. | Restrict | No |
| Porosity_Analysis_Equipment | Generic_Facility | The piece of analysis equipment utilized to determine the values for porosity. Example values are Archimedes Mercury Immersion Apparatus, and Volumetric Mercury Displacement Pump. | Restrict | No |
| Saturation_Analysis_Method | R_Saturatn_Analysis_Meth | The analysis method utilized to determine the values for fluid saturations. Example methods include: Distillation Extraction and High Temperature Retort. | Restrict | No |
| Saturation_Analysis_Fluid | Generic_Material | The name of the type of fluid used during saturation analysis. | Restrict | No |
| Sat_Analysis_Equipment | Generic_Facility | The piece of analysis equipment utilized to determine the values of the fluid saturation. Example values are Stainless Steel Retort and Dean Stark Tube. | Restrict | No |
| Porosity_Stress_Appl_Method | R_Stress_Application_Meth | The type of stress application method applied to a sample during porosity analysis. A stress application method is used to apply confining stress to a sample during sample analysis. Examples are: isostatic stress, triaxial stress, biaxial stress, or uniaxial strain. | Restrict | No |
| Porosity_Analysis_Fluid | Generic_Material | The name of the type of fluid used during porosity analysis. | Restrict | No |
| Basic_Core_Analysis_Type | R_Basic_Core_Analysis | A value that represents the type of basic core analysis performed. Examples are: Basic Core Plug Analysis, Basic Full Diameter Core Analysis, Basic Sidewall Core Analysis, etc.. | Restrict | Yes |
| Bulk_Vol_Analysis_Method | R_Bulk_Vol_Analysis_Meth | The bulk volume analysis method utilized to determine the values for porosity. Example methods include; Mercury Displacement and Caliper Measurement. | Restrict | No |
| Density_Analysis_Method | R_Density_Analysis_Meth | The analysis method utilized to determine the values for bulk density. Example methods include: Comparison to Density log and Balance Measurement. | Restrict | No |
| Grain_Vol_Analysis_Method | R_Grain_Vol_Analysis_Meth | The grain volume analysis method utilized to determine the values for matrix volume. Example methods include: Boyles Law (double cell) and Disaggregated Sample Grain Density. | Restrict | No |
| Jacketing_Material | R_Jacketing_Material | A value that represents the type of the jacketing material used to provide stability to the sample during analysis. Examples include Hassler Sleeve, Rubber Sleeve, or Teflon Sleeve. | Restrict | No |
| Perm_Analysis_Equipment | Generic_Facility | The piece of analysis equipment utilized to determine the values for permeability. Example values are: High Pressure Axial Flow Permeameter, Full-Diameter Radial Flow Permeameter and Probe Permeameter. | Restrict | No |
| Perm_Analysis_Fluid | Generic_Material | The name of the type of fluid used during permeability analysis. | Restrict | No |
| Activity_Template | Activity_Template | _ | Restrict | No |
| Transient_Period | R_Transient_Period | _ | Restrict | No |
| Super_Activity | Activity | _ | Assoc to One | No |
| Fulfilled_Activity | Activity | _ | Assoc to Many | No |
| Lab_Business_Associate | Business_Associate | _ | Restrict | No |
| Restored_State_Reserv_Anal | Reservoir_Analysis | _ | Restrict | No |
| Rock_Sample | Rock_Sample | _ | Cascade | Yes |
| Perm_Stress_Appl_Method | R_Stress_Application_Meth | The type of the stress application method applied to a sample during permeability analysis. A stress application method is used to apply confining stress to a sample during sample analysis. Examples are: isostatic stress, triaxial stress, biaxial stress, or uniaxial strain. | Restrict | No |