Documentation for obj_object_profiled_data_schema

Model Group: grp_commonPropertiesProductVolume

[Table of contents]

Name grp_commonPropertiesProductVolume
Used by (from the same schema document) Complex Type cs_productVolumeComponentContent , Complex Type cs_productVolumeFlow , Complex Type cs_productVolumePeriod , Complex Type cs_productVolumeProduct
Documentation Properties which are common to multiple structures in the productVolume schema.
XML Instance Representation
<witsml:gor> witsml:volumePerVolumeMeasure </witsml:gor> [0..1]

'Gas oil ratio. The ratio between the total produced gas volume and the total produced oil volume including oil and gas volumes used on the installation.'

<witsml:gorMTD> witsml:volumePerVolumeMeasure </witsml:gorMTD> [0..1]

'Gas oil ratio month to date. The gas oil ratio from the beginning of the month to the end of the reporting priod.'

<witsml:waterConcMass> witsml:massConcentrationMeasure </witsml:waterConcMass> [0..1]

'Water concentration mass basis. The ratio of water produced compared to the mass of total liquids produced.'

<witsml:waterConcVol> witsml:volumePerVolumeMeasure </witsml:waterConcVol> [0..1]

'Water concentration volume basis. The ratio of water produced compared to the mass of total liquids produced.'

<witsml:atmosphere> witsml:pressureMeasure </witsml:atmosphere> [0..1]

'The average atmospheric pressure during the reporting period.'

<witsml:volumeValue> witsml:cs_volumeValue </witsml:volumeValue> [0..1]

'The volume of the fluid, possibly corrected to specific conditions of temperature and pressure. A positive value for an inlet port indicates flow into the port. A negative value for an inlet port indicates flow out of the port. A positive value for an outlet port indicates flow out of the port. A negative value for an outlet port indicates flow into of the port. This convention is designed such that a positive sign indicates an expected condition based on the intended port direction while a negative sign indicates an anomolous condition.'

<witsml:volume> witsml:volumeQualifiedMeasure </witsml:volume> [0..1]

'DEPRECATED. Use volumeValue for new work. The uncorrected volume of the product. The sign of the value should conform to the above description of volumeValue. If the \'status\' attribute is absent and the value is not \"NaN\", the data value can be assumed to be good with no restrictions. A value of \"NaN\" should be interpreted as null and should be not be given unless a status is also specified to explain why it is null.'

<witsml:volumeStd> witsml:volumeQualifiedMeasure </witsml:volumeStd> [0..1]

'DEPRECATED. Use volumeValue for new work. The volume of the fluid, corrected to standard conditions of temperature and pressure. The sign of the value should conform to the above description of volumeValue. If the \'status\' attribute is absent and the value is not \"NaN\", the data value can be assumed to be good with no restrictions. A value of \"NaN\" should be interpreted as null and should be not be given unless a status is also specified to explain why it is null.'

<witsml:flowRate> witsml:volumeFlowRateQualifiedMeasure </witsml:flowRate> [0..1]

'The flow rate of the product. The sign of the value should conform to the above description of volume. If the \'status\' attribute is absent and the value is not \"NaN\", the data value can be assumed to be good with no restrictions. A value of \"NaN\" should be interpreted as null and should be not be given unless a status is also specified to explain why it is null.'

<witsml:temp> witsml:thermodynamicTemperatureMeasure </witsml:temp> [0..1]

'Temperature of the port. Specifying the temperature here (as opposed to in Period) implies that the temperature is constant for all periods of the flow.'

<witsml:pres> witsml:pressureMeasure </witsml:pres> [0..1]

'Pressure of the port. Specifying the pressure here (as opposed to in Period) implies that the pressure is constant for all periods of the flow.'

<witsml:absoluteMinPres> witsml:pressureMeasure </witsml:absoluteMinPres> [0..1]

'Absolute minimum pressure before the system will give an alarm.'

<witsml:portDiff> witsml:cs_productVolumePortDifference </witsml:portDiff> [0..*]

'The internal differences between this port and one other port on this unit.'

<witsml:mass> witsml:massMeasure </witsml:mass> [0..1]

'The mass of the product.'

<witsml:work> witsml:workMeasure </witsml:work> [0..1]

'The electrical energy represented by the product.'

<witsml:efficiency> witsml:volumePerVolumeMeasure </witsml:efficiency> [0..1]

'The actual volume divided by the potential volume.'

<witsml:rvp> witsml:pressureMeasure </witsml:rvp> [0..1]

'Reid vapor pressure of the product. The absolute vapor pressure of volatile crude oil and volatile petroleum liquids, except liquefied petroleum gases, as determined in accordance with American Society for Testing and Materials under the designation ASTM D323-56.'

<witsml:tvp> witsml:pressureMeasure </witsml:tvp> [0..1]

'True vapor pressure of the product. The equilibrium partial pressure exerted by a petroleum liquid as determined in accordance with standard methods.'

<witsml:bsw> witsml:volumePerVolumeMeasure </witsml:bsw> [0..1]

'Basic sediment and water is measured from a liquid sample of the production stream. It includes free water, sediment and emulsion and is measured as a volume percentage of the production stream.'

<witsml:bswPrevious> witsml:volumePerVolumeMeasure </witsml:bswPrevious> [0..1]

'The basic sediment and water as measured on the previous reporting period (e.g., day).'

<witsml:densityValue> witsml:cs_densityValue </witsml:densityValue> [0..1]

'The density of the fluid, possibly corrected to specific conditions of temperature and pressure.'

<witsml:density> witsml:densityMeasure </witsml:density> [0..1]

'The density of the product.'

<witsml:densityFlowRate> witsml:massFlowRateMeasure </witsml:densityFlowRate> [0..1]

'The mass basis flow rate of the product. This is used for things like a sand component.'

<witsml:densityStd> witsml:densityMeasure </witsml:densityStd> [0..1]

'The density of the product after it has been corrected to standard temperature and pressure.'

<witsml:concentration> witsml:volumePerVolumeMeasure </witsml:concentration> [0..1]

'The concentration of the product as a volume percentage of the product stream.'

<witsml:molecularWeight> witsml:unitlessQuantity </witsml:molecularWeight> [0..1]

'The molecular weight of the product.'

<witsml:weightPercent> witsml:massConcentrationMeasurePercent </witsml:weightPercent> [0..1]

'The weight fraction of the product.'

<witsml:molePercent> witsml:molarFractionMeasurePercent </witsml:molePercent> [0..1]

'The mole fraction of the product.'

<witsml:moleAmt> witsml:amountOfSubstanceMeasure </witsml:moleAmt> [0..1]

'The molar amount.'

<witsml:sg> witsml:dimensionlessMeasure </witsml:sg> [0..1]

'The specific gravity of the product.'

<witsml:hcDewpoint> witsml:thermodynamicTemperatureMeasure </witsml:hcDewpoint> [0..1]

'The temperature at which the heavier hydrocarbons come out of solution.'

<witsml:waterDewpoint> witsml:thermodynamicTemperatureMeasure </witsml:waterDewpoint> [0..1]

'The temperature at which the first water comes out of solution.'

<witsml:wobbeIndex> witsml:modulusOfCompressionMeasure </witsml:wobbeIndex> [0..1]

'Wobbe Index. A number which indicates interchangeability of fuel gasses and is obtained by dividing the heating value of a gas by the square root of its specific gravity.'

<witsml:grossCalorificValueStd> witsml:modulusOfCompressionMeasure </witsml:grossCalorificValueStd> [0..1]

'The amount of heat which would be released by the complete combustion in air of a specific quantity of product at standard temperature and pressure.'

<witsml:rvpStabilizedCrude> witsml:pressureMeasure </witsml:rvpStabilizedCrude> [0..1]

'Reid vapor pressure of stabilized crude.'

<witsml:bswStabilizedCrude> witsml:volumePerVolumeMeasure </witsml:bswStabilizedCrude> [0..1]

'Basic sediment and water content in stabilized crude.'

<witsml:densityStabilizedCrude> witsml:densityMeasure </witsml:densityStabilizedCrude> [0..1]

'The density of stabilized crude.'

Diagram
h-2131132250 h-2131132250 h-1588894038 h-2131132250 h1272623188 h-548101939 h1456352001 h1456352001 h1728085839 h-607763263 h1272623188 h1272623188 h-1903441859 h1236476485 h-1554483320 h-2131132250 h1272623188 h1272623188 h-2131132250 h-2131132250 h619651539 h1452152571 h-2000742345 h1452152571 h-2131132250 h526607149 h1384030779 h177822399 h-1314153054 h1273944132 h-607763263 h-607763263 h-166734879 h-166734879 h1272623188 h-2131132250 h1452152571
Schema Component Representation
<xsd:group name="grp_commonPropertiesProductVolume">
<xsd:sequence>
<xsd:element name="gor" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="gorMTD" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="waterConcMass" type=" witsml:massConcentrationMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="waterConcVol" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="atmosphere" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="volumeValue" type=" witsml:cs_volumeValue " minOccurs="0" maxOccurs="1"/>
<xsd:element name="volume" type=" witsml:volumeQualifiedMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="volumeStd" type=" witsml:volumeQualifiedMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="flowRate" type=" witsml:volumeFlowRateQualifiedMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="temp" type=" witsml:thermodynamicTemperatureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="pres" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="absoluteMinPres" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="portDiff" type=" witsml:cs_productVolumePortDifference " minOccurs="0" maxOccurs="unbounded"/>
<xsd:element name="mass" type=" witsml:massMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="work" type=" witsml:workMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="efficiency" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="rvp" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="tvp" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="bsw" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="bswPrevious" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="densityValue" type=" witsml:cs_densityValue " minOccurs="0" maxOccurs="1"/>
<xsd:element name="density" type=" witsml:densityMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="densityFlowRate" type=" witsml:massFlowRateMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="densityStd" type=" witsml:densityMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="concentration" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="molecularWeight" type=" witsml:unitlessQuantity " minOccurs="0" maxOccurs="1"/>
<xsd:element name="weightPercent" type=" witsml:massConcentrationMeasurePercent " minOccurs="0" maxOccurs="1"/>
<xsd:element name="molePercent" type=" witsml:molarFractionMeasurePercent " minOccurs="0" maxOccurs="1"/>
<xsd:element name="moleAmt" type=" witsml:amountOfSubstanceMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="sg" type=" witsml:dimensionlessMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="hcDewpoint" type=" witsml:thermodynamicTemperatureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="waterDewpoint" type=" witsml:thermodynamicTemperatureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="wobbeIndex" type=" witsml:modulusOfCompressionMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="grossCalorificValueStd" type=" witsml:modulusOfCompressionMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="rvpStabilizedCrude" type=" witsml:pressureMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="bswStabilizedCrude" type=" witsml:volumePerVolumeMeasure " minOccurs="0" maxOccurs="1"/>
<xsd:element name="densityStabilizedCrude" type=" witsml:densityMeasure " minOccurs="0" maxOccurs="1"/>
</xsd:sequence>
</xsd:group>