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100 1 $aDake, L. P.
245 10 $aFundamentals of reservoir engineering /$cL.P. Dake.
260 $aAmsterdam ;$aBoston :$bElsevier,$c1978.
300 $a1 online resource (xv, 443 pages) :$billustrations
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aDevelopments in petroleum science ;$v8
504 $aIncludes bibliographical references and indexes.
588 0 $aPrint version record.
506 $3Use copy$fRestrictions unspecified$2star$5MiAaHDL
533 $aElectronic reproduction.$b[Place of publication not identified] :$cHathiTrust Digital Library,$d2010.$5MiAaHDL
538 $aMaster and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.$uhttp://purl.oclc.org/DLF/benchrepro0212$5MiAaHDL
583 1 $adigitized$c2010$hHathiTrust Digital Library$lcommitted to preserve$2pda$5MiAaHDL
506 $aAccess restricted to Ryerson students, faculty and staff.$5CaOTR
505 0 $aFront Cover; Fundamentals of Reservoir Engineering; Copyright Page; Table of Contents; PREFACE; ACKNOWLEDGEMENTS; IN MEMORIAM; NOMENCLATURE; Chapter 1. SOME BASIC CONCEPTS IN RESERVOIR ENGINEERING; 1. Introduction; 2. Calculation of hydrocarbon volumes; 3. Fluid pressure regimes; 4. Oil recovery: recovery factor; 5. Volumetric gas reservoir engineering; 6. Application of the real gas equation of state; 7. Gas material balance: recovery factor; 8. Hydrocarbon phase behaviour; References; Chapter 2. PVT ANALYSIS FOR OIL; 1. Introduction; 2. Definition of the basic PVT parameters.
505 8 $a3. Collection of fluid samples4. Determination of the basic PVT parameters in the laboratory and conversion for field operating conditions; 5. Alternative manner of expressing PVT laboratory analysis results; 6. Complete PVT analysis; References; Chapter 3. MATERIAL BALANCE APPLIED TO OIL RESERVOIRS; 1. Introduction; 2. General form of the material balance equation for a hydrocarbon reservoir; 3. The material balance expressed as a linear equation; 4. Reservoir drive mechanisms; 5. Solution gas drive; 6. Gascap drive; 7. Natural water drive.
505 8 $a8. Compaction drive and related pore compressibility phenomenaReferences; Chapter 4. DARCY'S LAW AND APPLICATIONS; 1. Introduction; 2. Darcy's law; fluid potential; 3. Sign Convention; 4. Units: units conversion; 5. Real gas potential; 6. Datum pressures; 7. Radial steady state flow; well stimulation; 8. Two-phase flow: effective and relative permeabilities; 9. The mechanics of supplementary recovery; References; Chapter 5. THE BASIC DIFFERENTIAL EQUATION FOR RADIAL FLOW IN A POROUS MEDIUM; 1. Introduction; 2. Derivation of the basic radial flow equation; 3. Conditions of solution.
505 8 $a4. The linearization of equation 5.1 for fluids of small and constant compressibilityReferences; Chapter 6. WELL INFLOW EQUATIONS FOR STABILIZED FLOW CONDITIONS; 1. Introduction; 2. Semi steady state solution; 3. Steady state solution; 4. Example of the application of the stabilized inflow equations; 5. Generalized form of inflow equation under semi steady state conditions; References; Chapter 7. THE CONSTANT TERMINAL RATE SOLUTION OF THE RADIAL DIFFUSIVITV EQUATION AND ITS APPLICATION TO OILWELL TESTING; 1. Introduction; 2. The constant terminal rate solution.
505 8 $a3. The constant terminal rate solution for transient and semi steady state flow4. Dimensionless variables; 5. Superposition theorem: general theory of well testing; 6. The Matthews, Brons, Hazebroek pressure buildup theory; 7. Pressure buildup analysis techniques; 8. Multi-rate drawdown testing; 9. The effects of partial well completion; 10. Some practical aspects of well surveying; 11. Afterflow analysis; References; Chapter 8. REAL GAS FLOW: GAS WELL TESTING; 1. Introduction; 2. Linearization and solution of the basic differential equation for the radial flow of a real gas.
520 $a""This book is fast becoming the standard text in its field"", wrote a reviewer in the Journal of Canadian Petroleum Technology soon after the first appearance of Dake's book. This prediction quickly came true: it has become the standard text and has been reprinted many times. The author'saim - to provide students and teachers with a coherent account of the basic physics of reservoir engineering - has been most successfully achieved. No prior knowledge of reservoir engineering is necessary. The material is dealt with in a concise, unified and applied manner, and only the simplest and m
546 $aEnglish.
650 0 $aOil reservoir engineering.
650 6 $aÉtude des gisements pétrolifères.
650 7 $aTECHNOLOGY & ENGINEERING$xMining.$2bisacsh
650 7 $aOil reservoir engineering.$2fast$0(OCoLC)fst01044726
653 $aPetroleum deposits$aReservoirs$aExploitation$aEngineering aspects
655 4 $aElectronic books.
776 08 $iPrint version:$aDake, L.P.$tFundamentals of reservoir engineering.$dAmsterdam ; Boston : Elsevier, 1978$z0444416676$w(DLC) 77018701$w(OCoLC)3543535
830 0 $aDevelopments in petroleum science ;$v8.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13598590$zACADEMIC - Oil & Gas Engineering
852 8 $blweb$hEBOOKS