04699nam 2200625 450 991082854750332120230808205242.01-119-28461-91-5231-1049-X1-119-28460-01-119-28462-7(CKB)4330000000009961(EBL)4692002(Au-PeEL)EBL4692002(CaPaEBR)ebr11268664(CaONFJC)MIL957425(OCoLC)958937149(MiAaPQ)EBC4692002(EXLCZ)99433000000000996120160615h20162016 uy| 0engur|n|---|||||rdacontentrdamediardacarrierReservoir engineering in modern oilfields vertical, deviated, horizontal and multilateral well systems /Wilson ChinHoboken, New Jersey :John Wiley & Sons, Incorporated,[2016]©20161 online resource (353 p.)Handbook of petroleum engineering series ;volume 1Description based upon print version of record.1-119-28378-7 Includes bibliographical references and indexes.Cover; Title Page; Copyright Page; Contents; Preface; Acknowledgements; 1 Reservoir Modeling - Background and Overview; Overview; Reservoir modeling landscape; Reflections on simulation and modeling; Reservoir Flow Algorithms for Petroleum Engineers; MultisimTM Features - Advanced Interactive Reservoir Modeling; Reservoir Description; Well System Modeling; Additional Simulator Features; Simple Wells to Multilateral Systems for Laymen; Advanced Graphics for Color Display; Tracer Movement in Three-Dimensional Reservoirs; 2 Mathematical Modeling Ideas, Numerical Methods and SoftwareOverview and BackgroundFormulation errors; I/O problems; Fundamental Issues and Problems; Numerical stability; Inadequacies of the von Neumann test; Convergence; Physical resolution; Direct solvers; Modern simulation requirements; Pressure constraints; Flow rate constraints; Object-oriented geobodies; Plan for remaining sections; Governing Equations and Numerical Formulation; Steady flows of liquids; Difference equation formulation; The iterative scheme; Modeling well constraints for liquids; Steady and unsteady nonlinear gas flows; Steady gas flows; Well constraints for gas flowsTransient, compressible flowsCompaction, consolidation and subsidence; Boundary conforming grids; Stratigraphic meshes for layered media; Modeling wellbore storage; Early 1990s Validation Calculations; Simulation capabilities; Data structures and programming; Example 2-1. Convergence acceleration, two deviated horizontal gas wells in a channel sand; Example 2-2. Dual-lateral horizontal completion in a fractured, dipping, heterogeneous, layered formation; Example 2-3. Stratigraphic grids, drilling dome-shaped structuresExample 2-4. Simulating-while-drilling horizontal gas wells through a dome-shaped reservoirExample 2-5. Modeling wellbore storage effects and compressible borehole flow transients; Run 1. Production well, no wellbore storage effects; Run 2. Production well, with some wellbore storage effects; Run 3. Production well, with more wellbore storage effects; Run 4. Injector well, without wellbore storage effects; Run 5. Injector well, with wellbore storage effects; 3 Simulation Capabilities - User Interface with Basic WellExample 3-1. Single vertical well, user interface and menu structure for steady flowExample 3-2. Volume flow rate constraint at a well; Example 3-3. Pressure constraint and transient shut-in; Example 3-4. Heterogeneities, anisotropy and multiple wells; Example 3-5. Reversing well constraints - consistency check; Example 3-6. Changing farfield boundary conditions; Example 3-7. Fluid depletion in a sealed reservoir; Example 3-8. Depletion in rate constrained well in sealed reservoir; Example 3-9. Steady flow from five spot pattern; Example 3-10. Drilling additional wells while simulating4 Vertical, Deviated, Horizontal and Multilateral Well SystemsHandbook of Petroleum EngineeringOil reservoir engineeringPetroleum engineeringOil wellsOil reservoir engineering.Petroleum engineering.Oil wells.622/.3381Chin Wilson C.860858MiAaPQMiAaPQMiAaPQBOOK9910828547503321Reservoir engineering in modern oilfields4003358UNINA