流線數(shù)值試井解釋理論與方法

內(nèi)容概要

　　《流線數(shù)值試井解釋理論與方法（英文版）》考慮到生產(chǎn)歷史、油藏非均質(zhì)、多井以及油水兩相流等特征建立了數(shù)值試井解釋模型（包括生產(chǎn)階段和關(guān)井階段），采用快速、穩(wěn)定的流線方法進行求解，得到關(guān)井測試時的壓力場、飽和度場和流線分布，沿每條流線建立流線數(shù)值試井解釋模型，并對由測試井發(fā)出的所有流線進行聯(lián)立求解，得到關(guān)井后的壓力響應(yīng)。對壓力響應(yīng)和測壓數(shù)據(jù)進行自動擬合或手動擬合，可得到試井解釋參數(shù)。理論和應(yīng)用實例驗證了本方法的可靠性及實用性。

書籍目錄

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

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姚軍、吳明錄編著的《流線數(shù)值試井解釋理論與方法(英文版)》考慮到生產(chǎn)歷史、油藏非均質(zhì)、多井以及油水兩相流等特征建立了數(shù)值試井解釋模型(包括生產(chǎn)階段和關(guān)井階段),采用快速、穩(wěn)定的流線方法進行求解,得到關(guān)井測試時的壓力場、飽和度場和流線分布,沿每條流線建立流線數(shù)值試井解釋模型,并對由測試井發(fā)出的所有流線進行聯(lián)立求解,得到關(guān)井后的壓力響應(yīng)。對壓力響應(yīng)和測壓數(shù)據(jù)進行自動擬合或手動擬合,可得到試井解釋參數(shù)。理論和應(yīng)用實例驗證了本方法的可靠性及實用性。

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