List of Tables.pdf
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List of Tables
Table 2.1: Result Given by the Spreadsheet ProgramOilProperties.xls
Table 2.2: Results Given by the Spreadsheet ProgramMixingRule.xls
Table 2.3: Results Given by the Spreadsheet Carr-Kobayashi-Burrows-GasViscosity.xls
Table 2.4: Results Given by the Spreadsheet ProgramBrill.Beggs.Z.xls
Table 2.5: Results Given by the Spreadsheet ProgramHall.Yarborogh.z.xls
Table 3.1: Summary of Test Points for Nine OilLayers
Table 3.2: Comparison of Commingled and Layer-Grouped Productions
Table 4.1: Result Given by Poettmann-CarpenterBHP.xls for Example Problem 4.2
Table 4.2: Result Given by Guo.GhalamborBHP.xlsfor Example Problem 4.3
Table 4.3: Result Given by HagedornBrownCorrelation.xls for Example Problem 4.4
Table 4.4: Spreadsheet Average TZ.xls for the DataInput and Results Sections
Table 4.5: Appearance of the Spreadsheet Cullender.Smith.xls for the Data Input and ResultsSections
Table 5.1: Solution Given by the SpreadsheetProgram GasUpChokePressure.xls
Table 5.2: Solution Given by the SpreadsheetProgram GasDownChokePressure.xls
Table 5.3: A Summary of C, m and n Values Givenby Different Researchers
Table 5.4: An Example Calculation with SachdevasChoke Model
Table 6.1: Result Given by BottomHoleNodalGas.xlsfor Example Problem 6.1
Table 6.2: Result Given by BottomHoleNodalOil-PC.xls for Example Problem 6.2
Table 6.3: Result Given by BottomHoleNodaloil-GG.xls. for Example of Problem 6.2
Table 6.4: Solution Given by BottomHoleNodalOil-HB.xls
Table 6.5: Solution Given by WellheadNodalGas-SonicFlow.xls.
Table 6.6: SolutionGiven byWellheadNodalOil-PC.xlsTable 6.7: Solution Given by WellheadNodalOil-
GG.xlsTable 6.8: Solution Given by WellheadNodalOil-
HB.xls.Table 6.9: Solution Given by MultilateralGasWell
Deliverability (Radial-Flow IPR).xlsTable 6.10: Data Input and Result Sections of the
Spreadsheet MultilateralOilWellDeliverability.xls
Table 7.1: Sroduction Forecast Given by TransientProductionForecast.xls
Table 7.2: Production Forecast for ExampleProblem 7.2
Table 7.3: Oil Production Forecast for N 1Table 7.4: Gas Production Forecast for N 1Table 7.5: Production schedule forecastTable 7.6: Result of Production Forecast for
Example Problem 7.4Table 8.1: Production Data for Example Problem 8.2Table 8.2: Production Data for Example Problem 8.3Table 8.3: Production Data for Example Problem 8.4
Table 9.1: API Tubing Tensile RequirementsTable 10.1: K-Values Used for Selecting SeparatorsTable 10.2: Retention Time Required Under Various
Separation ConditionsTable 10.3: Settling Volumes of Standard Vertical
High-Pressure SeparatorsTable 10.4: Settling Volumes of Standard Vertical
Low-Pressure SeparatorsTable 10.5: Settling Volumes of Standard Horizontal
High-Pressure SeparatorsTable 10.6: Settling Volumes of Standard Horizontal
Low-Pressure SeparatorsTable 10.7: Settling Volumes of Standard Spherical
High-Pressure SeparatorsTable 10.8: Settling Volumes of Standard Spherical
Low-Pressure Separators (125 psi)Table 10.9: Temperature Correction Factors for
Trayed Glycol ContactorsTable 10.10: Specific Gravity Correction Factors for
Trayed Glycol ContactorsTable 10.11: Temperature Correction Factors for
Packed Glycol ContactorsTable 10.12: Specific Gravity Correction Factors for
Packed Glycol ContactorsTable 11.1: Typical Values of Pipeline Efficiency
FactorsTable 11.2: Design and Hydrostatic Pressure
Definitions and Usage Factors for OilLines
Table 11.3: Design and Hydrostatic PressureDefinitions and Usage Factors for GasLines
Table 11.4: Thermal Conductivities of MaterialsUsed in Pipeline Insulation
Table 11.5: Typical Performance of InsulatedPipelines
Table 11.6: Base Data for Pipeline InsulationDesign
Table 11.7: Calculated Total Heat Losses for theInsulated Pipelines (kW)
Table 12.1: Conventional Pumping Unit APIGeometry Dimensions
Table 12.2: Solution Given by Computer ProgramSuckerRodPumpingLoad.xls
Table 12.3: Solution Given by SuckerRodPumpingFlowrate&Power.xls
Table 12.4: Design Data for API Sucker RodPumping Units
Table 13.1: Result Given by Computer ProgramCompressorPressure.xls
Table 13.2: Result Given by Computer ProgramReciprocatingCompressorPower.xls forthe First Stage Compression
Table 13.3: Result Given by the Computer ProgramCentrifugalCompressorPower.xls
Table 13.4: R Values for Otis Spreadmaster ValvesTable 13.5: Summary of Results for Example
Problem 13.7Table 14.1: Result Given by the Computer
Spreadsheet ESPdesign.xlsTable 14.2: Solution Given by HydraulicPiston
Pump.xlsTable 14.3: Summary of Calculated ParametersTable 14.4: Solution Given by Spreadsheet Program
PlungerLift.xls
Guo, Boyun / Petroleum Production Engineering, A Computer-Assisted Approach Guo-prelims Final Proof page xv 29.12.2006 10:39am
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Table 15.1: Basic Parameter Values for ExampleProblem 15.1
Table 15.2: Result Given by the Spreadsheet ProgramGasWellLoading.xls
Table 16.1: Primary Chemical Reactions in AcidTreatments
Table 16.2: Recommended Acid Type and Strength forSandstone Acidizing
Table 16.3: Recommended Acid Type and Strength forCarbonate Acidizing
Table 17.1: Features of Fracture Geometry Models
Table 17.2: Summary of Some Commercial FracturingModels
Table 17.3: Calculated Slurry ConcentrationTable 18.1: Flash Calculation with Standings Method
for ki ValuesTable 18.2: Solution to Example Problem 18.3 Given
by the Spreadsheet LoopedLines.xlsTable 18.3: Gas Lift Performance Data for Well A and
Well BTable 18.4: Assignments of Different Available Lift
Gas Injection Rates to Well A and Well B
xvi LIST OF TABLES
Guo, Boyun / Petroleum Production Engineering, A Computer-Assisted Approach Guo-prelims Final Proof page xvi 29.12.2006 10:39am