| Name | Drill_Fluid_Pty |
|---|---|
| Entity Type | Table |
| Description | Class describing the properties of a drilling fluid. |
| Submodel | WS_Activity |
| Entity Scope | Project |
| Primary Key | Id |
| Natural Key | |
| Generalizations | Entity , IT_Object , Tracked_Object |
| Specializations |
| Name | Value Domain / Measurement | Description | Required / Default | Type |
|---|---|---|---|---|
| Aniline_Point | double Temperature |
The aniline point is called the "aniline point temperature," which is the lowest temperature (Degrees F or Degrees C) at which equal volumes of aniline (C6H5NH2) and the oil form a single phase. The aniline point (AP) correlates roughly with the amount and type of aromatic hydrocarbons in an oil sample. | No |
NUMBER |
| Avg_Solid_Specific_Gravity | double Dimensionless |
Average Specific Gravity of Solids | No |
NUMBER |
| BSW | double Percent |
The percentage of Basic Sediment and Water in the mud. BSW is material coexisting with, yet foreign to, petroleum liquid. This foreign material includes free water and sediment and/or emulsified water and sediment. | No |
NUMBER |
| Background_Gas_Volume | double No_Unit |
The background gas content measured in the mud | No |
NUMBER |
| Barite_Conc | double High_Concentration |
Amount of barite present in the sample. | No |
NUMBER |
| Bicarbonate_Conc | double Concentration |
Bicarbonate concentration | No |
NUMBER |
| Bottom_Hole_Circ_Temp | double Temperature |
Bottom Hole Circulating Temperature. It is the temperature of the Drill Fluid in circulation at the MD where the sample is collected. | No |
NUMBER |
| Bottom_Hole_Static_Temp | double Temperature |
Bottom Hole Static Temperature. It is the temperature of the Drill Fluid when the fluid is static (not circulated) at the MD where the sample is collected. | No |
NUMBER |
| Brine_Conc | double High_Concentration |
Proportion of the liquid fraction of an oil based mud which is composed of brine, calculated from the corrected oil/water ratio. | No |
NUMBER |
| Brine_Salt_Type | STRING64 NA |
The Salt type such as sodium, calcium, zinc salts with chloride, bromide and potassium, used to create a brine solution as a drilling fluid | No |
VARCHAR2(64) |
| Calcium_Chloride_Conc | double Concentration |
Calcium chloride in the water phase of an oil based mud | No |
NUMBER |
| Calcium_Conc | double Concentration |
Calcium concentration (Water Based Mud and water phase for Oil Based Mud) | No |
NUMBER |
| Carbide_Lag_Test_Gas | double No_Unit |
The Carbide Lag Test value | No |
NUMBER |
| Carbonate_Conc | double Concentration |
Carbonate concentration | No |
NUMBER |
| Chloride_Conc | double Concentration |
Concentration of chloride ions in water-based mud or in the water phase of oil-based mud | No |
NUMBER |
| Connection_Gas_Volume | double No_Unit |
gas content measured in the mud while making up the connection between two stands of drill pipe about to be placed in the hole | No |
NUMBER |
| Consistency_Index | double Dimensionless |
The k parameter in the Power-Law and Herschel-Bulkley rheological models. The Power Law model is "Shear Stress=k times (Shear Rate at the power of n)". The unit of k is traditionally lbf.sec^n/ft^2 or Pa.s^n. | No |
NUMBER |
| Cutting_Cation_Exchange_Cap | double Cation_Exchange_Capacity |
Cation Exchange Capacity of cuttings | No |
NUMBER |
| Cutting_Density | double Density |
The density of the cuttings being returned to the surface | No |
NUMBER |
| Cutting_Size | STRING64 NA |
The size of the cuttings being returned to the surface. | No |
VARCHAR2(64) |
| Cutting_Type | STRING64 NA |
The type of cutting being returned to the surface. | No |
VARCHAR2(64) |
| Density | double Mud_Density |
The density (mass per unit volume) of the drilling fluid at the source of mud check. | No |
NUMBER |
| Density_Measured_At_Pres | double Density |
Pressure under which slurry density was measured | No |
NUMBER |
| Drill_Fluid_Id | Drill_Fluid |
Reference to the drill fluid whose properties are defined. | Yes |
NUMBER(38) |
| Drill_Fluid_Test_Id | Drill_Fluid_Test |
Reference to the test that produced the set of measured drill fluid properties. | No |
NUMBER(38) |
| Electrical_Stability | double Electric_Potential |
Measure of the emulsion stability and oil-wetting capability in oil based drilling fluid mud | No |
NUMBER |
| End_Date | DATE NA |
End date and time of the validity of these properties | No |
DATE |
| Equivalent_Circ_Density | double Mud_Density |
The effective density exerted by a circulating fluid against the formation that takes into account the pressure drop in the annulus above the point being considered. The ECD is calculated as: d + P/0.052*D, where d is the mud weight (ppg), P is the pressure drop in the annulus between depth D and surface (psi), and D is the true vertical depth (feet). The ECD is an important parameter in avoiding kicks and losses, particularly in wells that have a narrow window between the fracture gradient and pore-pressure gradient. | No |
NUMBER |
| Excess_Lime | double Mass_Per_Volume |
Excess lime content | No |
NUMBER |
| 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) |
| First_Comp_Strength | double Strength |
Compressive Strength as in First Test | No |
NUMBER |
| First_Comp_Strength_Temp | double Temperature |
Temperature for First Test for Compressive Strength | No |
NUMBER |
| First_Comp_Strength_Time | double Time |
Time Duration of First Test for Compressive Strength | No |
NUMBER |
| Flow_Behavior_Index | double Dimensionless |
The n parameter in the Power-Law and Herschel-Bulkley rheological models. The Power Law model is "Shear Stress=k times (Shear Rate at the power of n)". n is dimensionless. | No |
NUMBER |
| Flow_Line_Temperature | double Temperature |
Flow Line Temperature | No |
NUMBER |
| Fluid_Yield | double Volume |
Yield expressed as volume of slurry formed per sack of cement / clay | No |
NUMBER |
| Funnel_Viscosity | double Time |
Time needed for a given quantity of fluid (generally a quart of mud) to flow into a specified size funnel (3/16 inch id tube of a 12 inch long funnel). Used for drilling fluid. | No |
NUMBER |
| 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) |
| Gas_Source | STRING32 NA |
The source of the gas | No |
VARCHAR2(32) |
| Gel_10_Min_Strength | double Shear_Stress |
Shear Stress required breaking a gel fluid previously allowed to remain at rest for 10 minutes | No |
NUMBER |
| Gel_10_Second_Strength | double Shear_Stress |
Shear Stress required breaking a gel fluid previously allowed to remain at rest for 10 seconds | No |
NUMBER |
| Gel_30_Min_Strength | double Shear_Stress |
Shear Stress required breaking a gel fluid previously allowed to remain at rest for 30 minutes | No |
NUMBER |
| Gel_30_Second_Strength | double Shear_Stress |
Shear Stress required breaking a gel fluid previously allowed to remain at rest for 30 second | No |
NUMBER |
| HGS_Conc | double Concentration |
The concentration of dense solids, such as barite or hematite, which are added to a mud to increase its density, also known as weighting material. The concentration of high-gravity solids in a weighted mud is measured by the mud engineer daily using mud density, retort data, chloride titration data and other information. Solids are reported as lbm/bbl or vol.%. The specific gravity of water is 1.00, barite is 4.20, and hematite 5.505 g/cm3. Drill solids and other low-gravity solids are normally assumed to be 2.60 g/cm3. | No |
NUMBER |
| HGS_Conc_Pct | double High_Concentration |
Percentage of high gravity solids in the sample. | No |
NUMBER |
| HTHP_Filter_Cake_Thickness | double Percent |
Thickness of residual solid film deposited on the filter paper by the loss of fluid from the HTHP filter press. | No |
NUMBER |
| HTHP_Filtrate_Volume | double Small_Volume |
Volume of the filtrate in a filtration process under HTHP conditions, based on API recommendation after 30 minutes | No |
NUMBER |
| HTHP_Pressure | double Pressure |
Operating pressure of the high temperature-high pressure filter press. API specification is 500 psi. | No |
NUMBER |
| HTHP_Temperature | double Temperature |
Operating temperature of the high temperature-high pressure filter press. API specification is 300 deg F. | No |
NUMBER |
| Hydrogen_Sulfide_Conc | double Concentration |
Hydrogen sulfide concentration in mud. | No |
NUMBER |
| 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) |
| K_Prime | double No_Unit |
Consistency index of the fluid | No |
NUMBER |
| LCM_Conc | double Percent |
The amount of solid material intentionally introduced into a mud system to reduce and eventually prevent the flow of drilling fluid into a weak, fractured or vugular formation. This material is generally fibrous or plate-like in nature, as suppliers attempt to design slurries that will efficiently bridge over and seal loss zones. In addition, popular lost circulation materials are low-cost waste products from the food processing or chemical manufacturing industries. Examples of lost circulation material include ground peanut shells, mica, cellophane, walnut shells, calcium carbonate, plant fibers, cottonseed hulls, ground rubber, and polymeric materials. | No |
NUMBER |
| LCM_Type | STRING255 NA |
The type of solid material intentionally introduced into a mud system to reduce and eventually prevent the flow of drilling fluid into a weak, fractured or vugular formation. This material is generally fibrous or plate-like in nature, as suppliers attempt to design slurries that will efficiently bridge over and seal loss zones. In addition, popular lost circulation materials are low-cost waste products from the food processing or chemical manufacturing industries. Examples of lost circulation material include ground peanut shells, mica, cellophane, walnut shells, calcium carbonate, plant fibers, cottonseed hulls, ground rubber, and polymeric materials. | No |
VARCHAR2(255) |
| LGS_Conc_Pct | double High_Concentration |
Percentage of low gravity solids in the sample. | No |
NUMBER |
| LGS_Concentration | double Percent |
Low gravity solids Concentration | No |
NUMBER |
| LGS_Concentration_Cor | double Percent |
Corrected Concentration of Low gravity solids | No |
NUMBER |
| LTLP_Filter_Cake_Thickness | double Oilfield_Gauge_Length |
Filter cake thickness determined in a filtration process under LTLP conditions | No |
NUMBER |
| LTLP_Filtrate_Volume | double Small_Volume |
Volume of the filtrate in a filtration process under LTLP conditions based on API recommendation after 30 minutes | No |
NUMBER |
| Logging_Activity_Id | Logging_Activity |
Reference to the logging activity for which the property set is effective. | No |
NUMBER(38) |
| MBT | double Dimensionless |
The amount of clay-like materials in a water-base drilling mud based on the amount of methylene blue dye absorbed by the sample. Results are reported as "MBT" and also as "lbm/bbl, bentonite equivalent" when performed to API specifications. | No |
NUMBER |
| Magnesium_Conc | double Concentration |
Measured magnesium ion concentration in the mud filtrate. | No |
NUMBER |
| Mf_Alkalinity | double Liquid_To_Liquid_Ratio |
The volume ratio of 0.02 normal (N/50) standard sulfuric acid (Mf_Titration_Volume) including that amount required for the Pf endpoint (Pf_Titration_Volume) to mud filtrate volume, API RP13 Section 8, Chemical Analysis | No |
NUMBER |
| Mf_Titration_Volume | double Small_Volume |
Amount of 0.02 normal (N/50) standard sulfuric acid required to turn the color of methyl orange indicator solution from yellow to pink when determining methyl orange alkalinity of the mud filtrate, Mf, API RP13 Section 8, Chemical Analysis | No |
NUMBER |
| Mud_Check_Location | STRING255 NA |
Source of the mud sample. e.g. flow line, suction, etc. | No |
VARCHAR2(255) |
| Mud_In_Density | double Density |
The density of the mud before it enters the well | No |
NUMBER |
| Mud_In_Temperature | double Temperature |
The temperature of the mud before it enters the well | No |
NUMBER |
| Mud_Oil_Ratio | double High_Concentration |
Oil Component of Oil to Water Ratio | No |
NUMBER |
| Mud_Oil_Volume | double Liquid_Production_Volume |
Volume of Base Oil Used to Build Mud | No |
NUMBER |
| Mud_Out_Density | double Density |
The density of the mud as it leaves the well | No |
NUMBER |
| Mud_Out_Temperature | double Temperature |
The temperature of the mud as it leaves the well | No |
NUMBER |
| Mud_Pit_Gas_Volume | double No_Unit |
gas content measured in a mud sample in the mud pit | No |
NUMBER |
| Mud_Water_Content | double Liquid_Production_Volume |
Amount of water used to build the mud | No |
NUMBER |
| Mud_Water_Ratio | double High_Concentration |
Water Component of Oil to Water Ratio | No |
NUMBER |
| N_Prime | double No_Unit |
Behavior index of the drill fluid | No |
NUMBER |
| 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) |
| Oil_Conc | double High_Concentration |
Oil Concentration per fluid Volume | No |
NUMBER |
| Oil_In_Cutting | double High_Concentration |
The oil content of cuttings, normally expressed as grams of oil adsorbed per kilogram of dry cuttings. The value has been used as the basis for discharge regulations for oil-base mud in several operating areas. | No |
NUMBER |
| Oil_In_Cutting_Date | DATE NA |
Time at which the cutting was analyzed | No |
DATE |
| Oil_In_Cutting_Discharged | double Dimensionless |
Oil on Cuttings Daily Discharge | No |
NUMBER |
| Oil_In_Cutting_MD | double Depth |
The measured depth at which the cutting was analyzed. | No |
NUMBER |
| Oil_Water_Ratio | double Liquid_To_Liquid_Ratio |
Ratio of oil volume to water volume for a fluid, such as an oil based mud | No |
NUMBER |
| 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) |
| P1_Alkalinity | double Trace_Concentration |
Phenolphthalein alkalinity of the filtrate to which sodium hydroxide and barium chloride have been added. | No |
NUMBER |
| Pf_Alkalinity | double Liquid_To_Liquid_Ratio |
The volume ratio of 0.02 normal (N/50) standard sulfuric acid (Pf_Titration_Volume) to mud filtrate volume, API RP13 Section 8, Chemical Analysis | No |
NUMBER |
| Pf_Titration_Volume | double Small_Volume |
Amount of 0.02 normal (N/50) standard sulfuric acid required to turn the color of phenolphthalein indicator solution from pink to colorless when determining phenolphthalein alkalinity of mud filtrate, Pf, API RP13 Section8, Chemical Analysis | No |
NUMBER |
| Plastic_Viscosity | double Dynamic_Viscosity |
Apparent viscosity of the Bingham Plastic model : Slope of the curve shear stress vs. shear rate (rheogram). Model equation is Shear Stress = Yield Stress + Plastic Viscosity times Shear Rate. | No |
NUMBER |
| Pm_Alkalinity | double Liquid_To_Liquid_Ratio |
The volume ratio of 0.02 normal (N/50) standard sulfuric acid (Pm_Titration_Volume) to mud volume, API RP13 Section 8 , Chemical Analysis | No |
NUMBER |
| Pm_Titration_Volume | double Small_Volume |
Amount of 0.02 normal (N/50) standard sulfuric acid required to turn the color of phenolphthalein indicator solution from pink to colorless when determining phenolphthalein alkalinity of the mud, Pm, API RP13 Section 8, Chemical Analysis | No |
NUMBER |
| Polymer_Type | STRING255 NA |
Polymer type used in mud | No |
VARCHAR2(255) |
| Polymer_Volume | double Mass_Per_Volume |
The volume of polymer used in the mud. | No |
NUMBER |
| Pore_Pressure | double Pressure |
Formation pore pressure at time of the test. | No |
NUMBER |
| Potassium_Conc | double Mass_Per_Volume |
Measured potassium ion concentration in the mud filtrate, measured by the STPB, sodium per chlorate or potassium select electrode method. | No |
NUMBER |
| Produced_By | STRING64 NA |
ID of the activity that was executing when the entity was created, for data created programmatically. | No |
VARCHAR2(64) |
| Relative_Humidity | double High_Concentration |
The water content of air compared to the water content that the air could hold if it were saturated, expressed as a percentage. Air in equilibrium with fresh water is saturated with water vapor, so its RH = 100%. Air above a saturated NaCl solution has RH = 75%. Air above a saturated CaCl2 solution has RH = 31%. RH can, therefore, be used as an indicator of the water activity of a solution with which air is in equilibrium. RH can also reflect the aqueous-phase activity of an oil mud emulsion, the basis for the Chenevert Method for testing oil mud. | No |
NUMBER |
| Remarks | STRING2000 NA |
Any type of remarks added to an entity instance. | No |
VARCHAR2(2000) |
| Rheometer_Ref_Pressure | double Pressure |
A reference pressure, normally 14.7 psi (atmospheric), is a measured drill fluid pressure used for compressibility/expansivity computations in a Pressure and Temperature-Dependent Rheology model | No |
NUMBER |
| Rheometer_Temperature | double Temperature |
Temperature of the mud when the viscometer readings were made. | No |
NUMBER |
| SDAT_Label | int No_Unit |
Label used by the security system for entitlements. SDAT is Secure Data Access Technology. | No |
NUMBER(10) |
| Salinity | double Trace_Concentration |
A measurement to determine the amount of salts present in the fluid. | No |
NUMBER |
| Sample_MD | double Depth |
Measured depth of well at the time of activity. | No |
NUMBER |
| Sand_Conc | double High_Concentration |
Sand content per Mud Volume, API RP13B, Section 5, Sand | No |
NUMBER |
| Second_Comp_Strength | double Strength |
Compressive Strength as in Second Test | No |
NUMBER |
| Second_Comp_Strength_Temp | double Temperature |
Temperature for Second Test for Compressive Strength | No |
NUMBER |
| Second_Comp_Strength_Time | double Time |
Time Duration of Second Test for Compressive Strength | No |
NUMBER |
| Show_Duration | double Time |
The duration of the gas show | No |
NUMBER |
| Sodium_Chloride_Conc | double Concentration |
Sodium Chloride Concentration | No |
NUMBER |
| Solid_Conc | double High_Concentration |
Solids Concentration (Cutting, clays, polymer) per fluid Volume | No |
NUMBER |
| Solid_Conc_Corrected | double High_Concentration |
Percent Solids Corrected for Chloride Content | 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) |
| Specific_Gravity | double Dimensionless |
The ratio of the weight of a given volume of a substance at a given temperature to the weight of an equal volume of a standard substance at the same temperature. In determining the specific gravity of gases, the comparison is made with the standard of air or hydrogen. | No |
NUMBER |
| Spurt_Loss | double Small_Volume |
The instantaneous volume (spurt) of liquid that passes through a filter medium prior to deposition of a competent and controlling filter cake. In static filtration, the spurt volume can be a disproportionately large percentage of the total 30-minute filtrate in an API-type test. This indicates that filter cake is slow in being deposited compared to a similar mud with lower spurt loss. To avoid uncertainties of spurt-loss volume, relative filtrate volume is used in static tests. | No |
NUMBER |
| Start_Date | DATE NA |
Start date and time of the validity of these properties | No |
DATE |
| Thickening_Estimated_Time | double Time |
Estimated Time duration for Thickening | No |
NUMBER |
| Thickening_Test_Pressure | double Pressure |
Thickening Test Pressure | No |
NUMBER |
| Thickening_Test_Temperature | double Temperature |
Thickening Test Temperature | No |
NUMBER |
| Thickening_Time | double Time |
Thickening Time | No |
NUMBER |
| Total_Dissolved_Solid | double High_Concentration |
Total dissolved solid in the mud. | No |
NUMBER |
| Total_Hardness | double Concentration |
Hardness is quantitatively determined by titration using standardized EDTA (versenate) reagent and ammonium hydroxide (weak) buffer, typically according to procedures of API. Results are reported as calcium ion in mg/L. The hardness ion Ca+2 can be analyzed alone by another EDTA titration method described by the API. | No |
NUMBER |
| Trip_Gas_Volume | double No_Unit |
gas content measured in the mud while tripping in or out of the hole | No |
NUMBER |
| 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) |
| Vsa | double Liquid_To_Liquid_Ratio |
Whole mud alkalinity for oil based mud and based on the volume of sulfuric acid (H2SO4) to the volume of mud | No |
NUMBER |
| Vsa_Titration_Volume | double Small_Volume |
Amount of N/10 Sulfuric Acid required to turn the color of phenolphthalein indicator solution from pink to colorless when determining whole mud alkalinity of the mud, Vsa, API RP13 Section 8, Chemical Analysis | No |
NUMBER |
| Water_Activity | double Dimensionless |
Water Activity, a measure of the water concentration in aqueous solutions expressed as a decimal fraction between 0 and 1 ( =1 for pure water) | No |
NUMBER |
| Water_Conc | double High_Concentration |
Water Concentration per fluid Volume | No |
NUMBER |
| Weighting_Agent | STRING64 NA |
A high-specific gravity and finely divided solid material such as barite or hematite used to increase the density of a drilling mud used to control mud viscosity. For example Barite. This is a denormalization of information that can be found in the classes that represent the fluid formulation of the Drill Fluid. | No |
VARCHAR2(64) |
| Whole_Mud_Calcium_Conc | double Concentration |
The Volume of a standard calcium-chelating agent released from the oil mud into the aqueous phase when a mixture of solvents is used to extract the oil mud. | No |
NUMBER |
| Whole_Mud_Chloride_Conc | double Concentration |
The volume of the standard silver nitrate required to react with the chloride ions to form insoluble silver chloride salts. | No |
NUMBER |
| Yield_Stress | double Shear_Stress |
Resistance to initial flow; the stress required to start fluid movement. Specifically, shear stress at 0 shear rate for Bingham Plastic (BP) rheological model, otherwise named Bingham yield value or yield point. | No |
NUMBER |
| pH | double Dimensionless |
An indicator of the degree of acidity of an aqueous solution. A value of 7 denotes a neutral fluid, lower values correspond to acidic fluids and higher values to basic fluids | No |
NUMBER |
| Cardinality | Entity |
|---|---|
| One | Logging_Mud_Pty |
| Link | To Entity | Description | Implementation Technique | Required |
|---|---|---|---|---|
| Logging_Activity | Logging_Activity | Reference to the logging activity for which the property set is effective. | Nullify | No |
| Drill_Fluid | Drill_Fluid | Reference to the drill fluid whose properties are defined. | Cascade | Yes |
| Drill_Fluid_Test | Drill_Fluid_Test | Reference to the test that produced the set of measured drill fluid properties. | Nullify | No |