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Advanced production decline...

Advanced production decline analysis and application

Sun, Hedong,

Gulf Professional [2015] 2015

In recent years, production decline-curve analysis has become the most widely used tool in the industry for oil and gas reservoir production analysis. However, most curve analysis is done by computer today, promoting a "black-box" approach to engineering and leaving engineers with little background in the fundamentals of decline analysis. Advanced Production Decline Analysis and Application starts from the basic concept of advanced production decline analysis, and thoroughly discusses several decline methods, such as Arps, Fetkovich, Blasingame, Agarwal-Gardner, NPI, transient, long linear flow, and FMB. A practical systematic introduction to each method helps the reservoir engineer understand the physical and mathematical models, solve the type curves and match up analysis, analyze the processes and examples, and reconstruct all the examples by hand, giving way to master the fundamentals behind the software. An appendix explains the nomenclature and major equations, and as an added bonus, online computer programs are available for download

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monografia Rebiun18286143 https://catalogo.rebiun.org/rebiun/record/Rebiun18286143 m o d cr cnu|||unuuu 150216t20152015mau ob 001 0 eng d 903858630. 959866487 9780128026274 electronic bk.) 0128026278 electronic bk.) 9780128024119 UPCT u417966 UPVA 996974032703706 UPM 991005763002104212 CBUC 991010340706806709 CBUC 991010340706806709 CBUC 991001013112306712 CBUC 991010340706806709 N$T. eng. rda. pn. N$T. IDEBK. N$T. OPELS. E7B. BTCTA. YDXCP. EBLCP. CDX. DEBSZ TEC. 026000 bisacsh Advanced production decline analysis and application Recurso electrónico-En línea] edited by Hedong Sun Waltham MA Gulf Professional [2015] Waltham MA Waltham MA Gulf Professional 2015 1 online resource 1 online resource Text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index Cover; Title page; Copyright Page; Contents; About the author; Preface; Introduction; 1 -- Fundamentals of Advanced Production Decline Analysis; 1.1 -- History of Advanced Production Decline Analysis (APDA); 1.2 -- Similarities and Differences between Production Decline Analysis and Well Test Analysis; 1.3 -- Basic Concepts; 1.3.1 -- Wellbore Storage Effect; 1.3.2 -- Skin Effect; 1.3.3 -- Apparent Wellbore Radius; 1.3.4 -- Infinite Formation Line-Source Solution; 1.3.5 -- Steady State, Pseudo-Steady State, and Boundary-Dominated Flows; 1.3.6 -- Investigation Radius; 1.3.7 -- Dimensionless Variables 1.3.8 -- Shape Factor and Pseudo-Steady State Arrival Time1.3.9 -- Superposition Principle; 1.3.10 -- Pseudo-Pressure, Pseudo-Time; 1.3.11 -- Material Balance Time; 1.3.12 -- Flow Regime Identification; 1.3.13 -- Type Curve Matching Principle; 1.3.14 -- Recoverable Reserves; 1.3.15 -- Dynamic Reserve; 2 -- Arps Decline Curves Analysis; 2.1 -- Arps Equations; 2.1.1 -- Exponential Decline; 2.1.2 -- Hyperbolic Decline; 2.1.3 -- Harmonic Decline; 2.1.4 -- Comparison of Three Decline Types; 2.1.5 -- Modified Hyperbolic Decline; 2.1.6 -- Fluid in Place and Drainage Area 2.2 -- Theoretical Fundamentals of Arps Production Decline2.2.1 -- Flow Rate Equation of Waterdrive Reservoir; 2.2.2 -- Exponential Decline Equation of Waterdrive Reservoir; 2.2.3 -- Hyperbolic Decline Equation of Waterdrive Reservoir; 2.2.4 -- Harmonic Decline Equation of Water Drive Reservoir; 2.2.5 -- Decline Equation of Bounded Elastic Drive-Constant Pressure Production; 2.2.6 -- Decline Equation of Multilayer Oil Well-Constant Pressure Production; 2.2.7 -- Decline Equation of Gas Well in Volumetric Gas Reservoir-Constant Pressure Production; 2.3 -- Arps Type Curves; 2.3.1 -- Gentry-Arps Type Curve 2.3.2 -- Arps Dimensionless Decline Flow Rate Type Curve2.3.3 -- Arps Dimensionless Decline Cumulative Production Curve; 2.3.4 -- Arps Dimensionless Decline Flow Rate Integral Type Curve; 2.3.5 -- Arps Dimensionless Decline Flow Rate Integral Derivative Type Curve; 2.3.6 -- Arps Type Curve; 2.4 -- Power Function Analysis; 2.4.1 -- IlK Method; 2.4.2 -- Mattar Method; 2.5 -- Case Analysis of Arps Method; 2.5.1 -- Identification of Decline Law; 2.5.2 -- Arps Exponential Decline Analysis; 2.5.3 -- Arps Harmonic Decline Analysis; 2.5.4 -- Result Correlation and Analysis; 3 -- Fetkovich Decline Curves Analysis 3.1 -- Solution for a Well in a Closed Circular Reservoir: Constant Pressure Production3.2 -- Fetkovich Decline Curve Plotting; 3.2.1 -- Fetkovich Dimensionless Variables; 3.2.2 -- Fetkovich Dimensionless Decline Rate and Decline Cumulative Production Type Curves; 3.2.3 -- Fetkovich-Arps Dimensionless Decline Rate and Decline Cumulative Production Type Curves; 3.2.4 -- Fetkovich-Arps Dimensionless Decline Rate Integral Type Curves; 3.2.5 -- Fetkovich-Arps Dimensionless Decline Rate Integral Derivative Type Curves; 3.3 -- Decline Curve Analysis Using Fetkovich-Style Type Curves 3.3.1 -- Conventional Decline Curve Analysis Accesible sólo para usuarios de la UPV Recurso a texto completo In recent years, production decline-curve analysis has become the most widely used tool in the industry for oil and gas reservoir production analysis. However, most curve analysis is done by computer today, promoting a "black-box" approach to engineering and leaving engineers with little background in the fundamentals of decline analysis. Advanced Production Decline Analysis and Application starts from the basic concept of advanced production decline analysis, and thoroughly discusses several decline methods, such as Arps, Fetkovich, Blasingame, Agarwal-Gardner, NPI, transient, long linear flow, and FMB. A practical systematic introduction to each method helps the reservoir engineer understand the physical and mathematical models, solve the type curves and match up analysis, analyze the processes and examples, and reconstruct all the examples by hand, giving way to master the fundamentals behind the software. An appendix explains the nomenclature and major equations, and as an added bonus, online computer programs are available for download Reproducción electrónica Forma de acceso: Web Elsevier. Suscripción Oil wells Forecasting Mathematical models Gas wells Forecasting Mathematical models TECHNOLOGY & ENGINEERING / Mining Gas wells -- Forecasting -- Mathematical models Gas wells -- Forecasting Oil wells -- Forecasting -- Mathematical models Oil wells -- Forecasting Electronic books Electronic books Sun, Hedong editor ScienceDirect (Servicio en línea) Print version Sun, Hedong. Advanced Production Decline Analysis and Application. -- Burlington : Elsevier Science,c2015 9780128024119

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monografia Rebiun18286143 https://catalogo.rebiun.org/rebiun/record/Rebiun18286143 m o d cr cnu|||unuuu 150216t20152015mau ob 001 0 eng d 903858630. 959866487 9780128026274 electronic bk.) 0128026278 electronic bk.) 9780128024119 UPCT u417966 UPVA 996974032703706 UPM 991005763002104212 CBUC 991010340706806709 CBUC 991010340706806709 CBUC 991001013112306712 CBUC 991010340706806709 N$T. eng. rda. pn. N$T. IDEBK. N$T. OPELS. E7B. BTCTA. YDXCP. EBLCP. CDX. DEBSZ TEC. 026000 bisacsh Advanced production decline analysis and application Recurso electrónico-En línea] edited by Hedong Sun Waltham MA Gulf Professional [2015] Waltham MA Waltham MA Gulf Professional 2015 1 online resource 1 online resource Text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index Cover; Title page; Copyright Page; Contents; About the author; Preface; Introduction; 1 -- Fundamentals of Advanced Production Decline Analysis; 1.1 -- History of Advanced Production Decline Analysis (APDA); 1.2 -- Similarities and Differences between Production Decline Analysis and Well Test Analysis; 1.3 -- Basic Concepts; 1.3.1 -- Wellbore Storage Effect; 1.3.2 -- Skin Effect; 1.3.3 -- Apparent Wellbore Radius; 1.3.4 -- Infinite Formation Line-Source Solution; 1.3.5 -- Steady State, Pseudo-Steady State, and Boundary-Dominated Flows; 1.3.6 -- Investigation Radius; 1.3.7 -- Dimensionless Variables 1.3.8 -- Shape Factor and Pseudo-Steady State Arrival Time1.3.9 -- Superposition Principle; 1.3.10 -- Pseudo-Pressure, Pseudo-Time; 1.3.11 -- Material Balance Time; 1.3.12 -- Flow Regime Identification; 1.3.13 -- Type Curve Matching Principle; 1.3.14 -- Recoverable Reserves; 1.3.15 -- Dynamic Reserve; 2 -- Arps Decline Curves Analysis; 2.1 -- Arps Equations; 2.1.1 -- Exponential Decline; 2.1.2 -- Hyperbolic Decline; 2.1.3 -- Harmonic Decline; 2.1.4 -- Comparison of Three Decline Types; 2.1.5 -- Modified Hyperbolic Decline; 2.1.6 -- Fluid in Place and Drainage Area 2.2 -- Theoretical Fundamentals of Arps Production Decline2.2.1 -- Flow Rate Equation of Waterdrive Reservoir; 2.2.2 -- Exponential Decline Equation of Waterdrive Reservoir; 2.2.3 -- Hyperbolic Decline Equation of Waterdrive Reservoir; 2.2.4 -- Harmonic Decline Equation of Water Drive Reservoir; 2.2.5 -- Decline Equation of Bounded Elastic Drive-Constant Pressure Production; 2.2.6 -- Decline Equation of Multilayer Oil Well-Constant Pressure Production; 2.2.7 -- Decline Equation of Gas Well in Volumetric Gas Reservoir-Constant Pressure Production; 2.3 -- Arps Type Curves; 2.3.1 -- Gentry-Arps Type Curve 2.3.2 -- Arps Dimensionless Decline Flow Rate Type Curve2.3.3 -- Arps Dimensionless Decline Cumulative Production Curve; 2.3.4 -- Arps Dimensionless Decline Flow Rate Integral Type Curve; 2.3.5 -- Arps Dimensionless Decline Flow Rate Integral Derivative Type Curve; 2.3.6 -- Arps Type Curve; 2.4 -- Power Function Analysis; 2.4.1 -- IlK Method; 2.4.2 -- Mattar Method; 2.5 -- Case Analysis of Arps Method; 2.5.1 -- Identification of Decline Law; 2.5.2 -- Arps Exponential Decline Analysis; 2.5.3 -- Arps Harmonic Decline Analysis; 2.5.4 -- Result Correlation and Analysis; 3 -- Fetkovich Decline Curves Analysis 3.1 -- Solution for a Well in a Closed Circular Reservoir: Constant Pressure Production3.2 -- Fetkovich Decline Curve Plotting; 3.2.1 -- Fetkovich Dimensionless Variables; 3.2.2 -- Fetkovich Dimensionless Decline Rate and Decline Cumulative Production Type Curves; 3.2.3 -- Fetkovich-Arps Dimensionless Decline Rate and Decline Cumulative Production Type Curves; 3.2.4 -- Fetkovich-Arps Dimensionless Decline Rate Integral Type Curves; 3.2.5 -- Fetkovich-Arps Dimensionless Decline Rate Integral Derivative Type Curves; 3.3 -- Decline Curve Analysis Using Fetkovich-Style Type Curves 3.3.1 -- Conventional Decline Curve Analysis Accesible sólo para usuarios de la UPV Recurso a texto completo In recent years, production decline-curve analysis has become the most widely used tool in the industry for oil and gas reservoir production analysis. However, most curve analysis is done by computer today, promoting a "black-box" approach to engineering and leaving engineers with little background in the fundamentals of decline analysis. Advanced Production Decline Analysis and Application starts from the basic concept of advanced production decline analysis, and thoroughly discusses several decline methods, such as Arps, Fetkovich, Blasingame, Agarwal-Gardner, NPI, transient, long linear flow, and FMB. A practical systematic introduction to each method helps the reservoir engineer understand the physical and mathematical models, solve the type curves and match up analysis, analyze the processes and examples, and reconstruct all the examples by hand, giving way to master the fundamentals behind the software. An appendix explains the nomenclature and major equations, and as an added bonus, online computer programs are available for download Reproducción electrónica Forma de acceso: Web Elsevier. Suscripción Oil wells Forecasting Mathematical models Gas wells Forecasting Mathematical models TECHNOLOGY & ENGINEERING / Mining Gas wells -- Forecasting -- Mathematical models Gas wells -- Forecasting Oil wells -- Forecasting -- Mathematical models Oil wells -- Forecasting Electronic books Electronic books Sun, Hedong editor ScienceDirect (Servicio en línea) Print version Sun, Hedong. Advanced Production Decline Analysis and Application. -- Burlington : Elsevier Science,c2015 9780128024119