流线数值试井解释理论与方法
2012-3
姚军、 吴明录 石油工业出版社 (2012-03出版)
姚军,吴明录 著
242
《流线数值试井解释理论与方法(英文版)》考虑到生产历史、油藏非均质、多井以及油水两相流等特征建立了数值试井解释模型(包括生产阶段和关井阶段),采用快速、稳定的流线方法进行求解,得到关井测试时的压力场、饱和度场和流线分布,沿每条流线建立流线数值试井解释模型,并对由测试井发出的所有流线进行联立求解,得到关井后的压力响应。对压力响应和测压数据进行自动拟合或手动拟合,可得到试井解释参数。理论和应用实例验证了本方法的可靠性及实用性。
1 Numerical Well Testing Interpretation Theory and Method 1.1 Well Testing Overview 1.2 DevelopmentHistory ofWellTestingTheory 1.3 Limitations ofModemWellTestingInterpretationMethods 1.4 Essence OfWellTestingInterpretation 1.5 BriefIntroductionto theNumericalWellTestingMethod 1.6 Chapter Summary2 Streamline Numerical Simulation Theory and Method 2.1 Overview ofthe StreamlineMethod 2.2 Calculation Procedures of Streamline Numerical Simulator 2.3 Discussion ofTime—Step 2.4 StreamlineTracing 2.5 Calculation ofStreamlineParameters 2.6 StreamlineUpdate 2.7 Calculation ofGridParameters 2.8 Well ProcessingMethods 2.9 Chapter Summary3 Streamline Numerical Well Testing Interpretation Model for a Single.Layer Sandstone Waterflooding Reservoir 3.1 Building a Streamline Numerical W_en Testing Interpretation Model for a SingleLayer SandstoneWaterfloodingReservoir 3.2 SOlution of the Streamline Numerical Well Testing Interpretation Model for a SingleLayer SandstoneWaterfloodingReservoir 33 CalculatiOn Method of the Streamline Numerical Well Testing Interpretation Model for a Single Layer SandstoneWaterflooding Reservoir 3.4 Correcmess Verification of the Streamline Numerical Well Testing Interpretation Model for a Single—Layer SandstoneWaterfloodingReservoir 3.5 Pressure Response Characteristics of the Streamline Numerical Well Testing Interpretation Model for a Single.Layer SandstoneWaterflooding Reservoir 3.6 Chapter Summary4 Streamline Numerical Well Testing Interpretation Model for a Muiti.Layer Sandstone Waterflooding Reservoir 4.1 The Building of a Streamline Numerical Well Testing Interpretation Model for a Multi—Layer SandstoneWaterfloodingReservoir 4.2 Solution of the Streamline Numerical Well Testing Interpretation Model for a Multi—Layer SandstoneWaterfloodingReservoir 4.3 Pressure Response Characteristics of the Streamline Numerical Well Testing Interpretation Model for aMulti—Layer SandstoneWaterfloodingReservoir 4.4 Layering Rate Response Characteristics of the Streamline Numerical Well Testing Interpretation ModelforaMulti.Layer SandstoneWatemoodingReservoir 4.5 Chapter Summary5 Streamline Numerical Well Testing Interpretation Model under Complex NearWelIBore Conditions 5.1 Streamline Numerical Well Testing Interpretation Model of a Partially Perforated Well 5.2 Streamline Numerical Well Testing Interpretation Model of the Testing Well With IrregularlyDamagedZone 5.3 Chapter Summary6 Streamline Numerical Well Testing Interpretation Model for a Chemical Flooding MultiLayer Sandstone Reservoir 6.1 Streamline Numerical Well Testing Interpretation Model for a Polymer Flooding Multi.Layer Sandstone Reservoir 6.2 Solving Methods of the Streamline Numerical Well Testing Interpretation Model for a Polymer FloodingMulti.Layer SandstoneReservoir 6.3 Pressure Response Characteristics of the Streamline Numerical Well Testing Interpretation Model toraPolymerFloodingMulti—Layer SandstoneReservoir 6.4 Streamline Numerical Well Testing Interpretation Model for an Alkaline/Polymer CombinationFloodingMulti.Layer SandstoneReservoir and SolvingMethods 6.5 Comparative Analysis ofWell Testing Pressure Response Characteristics with Different Flooding Methods 6.6 Chapter Summary7 Streamline Numerical Well Testing Interpretation Model Considering Components 7.1 CompositionalModel 7.2 StateEquation andPhaseEquilibrium 7.3 IMPES Solution ofthe Compositional Model 7.4 Streamline Well Testing Interpretation Model Considering Components 7.5 Discrete of Streamline Well Testing Interpretation Model Considering Components 7.6Componentand SaturationCalculationAlong Streamline 7.7 Simulation ExampleAnalysis 7.8 Chapter Summary8 Streamline Numerical Well Testing Interpretation Model for a Multi.Layer Reservoir in Double.Porosity Media8.1 Establishment ofthe Streamline Numerical Wlell Testing Interpretation Model for a Multi.Layer ReservoirinDoublePorosityMedia 8.2 Solving Methods of the Streamline Numerical Well Testing Interpretation Model for a MultiLayerReservoirinDouble—PorosityMedia 8.3 Pressure Response Characteristics of the Streamline Numerical Well Testing Interpretation Model tor aMultiLayerReservoirinDual—PorosityMedia_ 8.4 Chapter Summary9 Streamline Numerical Well Testing Interpretation Model of a HorizontalWelI 9.1 Establishment of the Streamline Numerical Well Testing Interpretation Model of a Horizontal Well 9.2 Solving Methods of the Streamline Numerical Well Testing Interpretation Model of a Horizontal Well andVerification 9.3 Pressure Response Characteristics of the Streamline Numerical Well Testing Interpretation Model ofaHorizontalWellZ 9.4 Chapter Summary1 0 Multiparameter Streamline Numerical Well Testing Interpretation Method 10.1 NumericalWellTestingAutomaticMatchInterpretationTheory andMethod 10.2 InterpretationPrinciple ofDouble—PopulationGeneticAlgorithm 10.3 Chapter Summary11 Software Programming of Streamline Numerical Well Testing InterpretatiOn 11.1 Overview 11.2 Introduction to Software Functions 11.3 Chapter Summary12 Field Application of Streamline Numerical Well Testing Interpretation Software 12.1 Application Case One 12.2 Application Case Two 12.3 Application CaseThree 12. 4 Chapter SummaryBibliography
姚军、吴明录编著的《流线数值试井解释理论与方法(英文版)》考虑到生产历史、油藏非均质、多井以及油水两相流等特征建立了数值试井解释模型(包括生产阶段和关井阶段),采用快速、稳定的流线方法进行求解,得到关井测试时的压力场、饱和度场和流线分布,沿每条流线建立流线数值试井解释模型,并对由测试井发出的所有流线进行联立求解,得到关井后的压力响应。对压力响应和测压数据进行自动拟合或手动拟合,可得到试井解释参数。理论和应用实例验证了本方法的可靠性及实用性。
