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E-raamat: Fundamentals of Enhanced Oil and Gas Recovery from Conventional and Unconventional Reservoirs

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(Research Staff Member, School of Environment, Science, and Engineering, Southern Cross University, Lismore, NSW, Australia)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 18-Aug-2018
  • Kirjastus: Gulf Professional Publishing
  • Keel: eng
  • ISBN-13: 9780128130285
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Fundamentals of Enhanced Oil and Gas Recovery from Conventional and Unconventional ReservoirsSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 18-Aug-2018
  • Kirjastus: Gulf Professional Publishing
  • Keel: eng
  • ISBN-13: 9780128130285
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Enhanced oil recovery continues to grow in technology and with the ongoing unconventional reservoir activity underway, enhanced oil recovery methods of many kinds will continue to gain in studies and scientific advancements. Reservoir engineers currently have multiple outlets to gain knowledge and are in need of one product solution to go-to for reference that is up to date.

Fundamentals of Enhanced Oil and Gas Recovery from Conventional and Unconventional Reservoirs delivers the proper foundation covering all types of currently utilized and upcoming enhanced oil recovery, including methods used in emerging unconventional reservoirs. Going beyond traditional secondary methods, this reference includes advanced water-based EOR methods which are become more popular due to fracturing, CO2 injection methods used in EOR and methods specific to target shale oil and gas activity. Rounding out with a chapter devoted to optimizing the application and economy of EOR methods, Fundamentals of Enhanced Oil and Gas Recovery from Conventional and Unconventional Reservoirs brings reservoir and petroleum engineers up to speed on the latest studies to apply in today’s oil and gas reservoir activities.

  • Explains enhanced oil recovery methods focused specifically for unconventional reservoirs with real world case studies and examples provided
  • Creates a practical and theoretical foundation with multiple contributors from various backgrounds
  • Includes a full range of latest and future methods for enhanced oil recovery, including chemical, waterflooding, CO2 injection, and thermal
List of Contributors
ix
Biography xi
1 An Introduction to Enhanced Oil Recovery
1(40)
Amirhossein Mohammadi Alamooti
Farzan Karimi Malekabadi
1.1 Overview
1(1)
1.2 Reservoir Rock Properties
2(1)
1.3 Porosity
3(1)
1.4 Saturation
3(1)
1.5 Permeability
4(1)
1.6 Wettability
4(1)
1.7 Capillary Pressure
5(1)
1.8 Relative Permeability
6(1)
1.9 Reservoir Fluid Properties
7(7)
1.10 Reservoir Drive Mechanisms
14(2)
1.11 Mechanisms of Oil Trapping and Mobilization
16(4)
1.12 Viscous, Capillary, and Gravity Forces
20(1)
1.13 Pore Scale Trapping, Mobilization of Trapped Oil
21(2)
1.14 Microscopic Displacement of Fluids in the Reservoir (ED)
23(8)
1.15 Mobility Ratio Control
31(10)
References
40(1)
2 Screening Criteria of Enhanced Oil Recovery Methods
41(20)
Ehsan Mahdavi
Fatemeh Sadat Zebarjad
2.1 Introduction
41(1)
2.2 Gas Methods
41(6)
2.3 Chemical Methods
47(5)
2.4 Thermal Methods
52(9)
References
56(5)
3 Enhanced Oil Recovery Using CO2
61(40)
Ramin Moghadasi
Alireza Rostami
Abdolhossein Hemmati-Sarapardeh
3.1 Introduction
61(1)
3.2 CO2 Injection Fundamentals
62(26)
3.3 CO2 Injection Methods
88(1)
3.4 CO2 Injection Laboratory Tests
89(2)
3.5 CO2 Injection Facilities and Process Design Considerations
91(1)
3.6 CO2 Injection in Tight Reservoir
92(1)
3.7 CO2 Injection for Enhanced Gas Recovery
93(1)
3.8 Environmental Aspects of CO2 Injection
94(7)
References
95(6)
4 Miscible Gas Injection Processes
101(38)
Pouria Behnoudfar
Alireza Rostami
Abdolhossein Hemmati-Sarapardeh
4.1 Enhanced Oil Recovery
101(1)
4.2 Immiscible and Miscible Processes
102(1)
4.3 Minimum Miscibility Determination
103(13)
4.4 First Contact Miscible Versus Multicontact Miscible
116(1)
4.5 Heavy Oil Recovery Using CO2
116(5)
4.6 Hydrocarbon: LPG, Enriched Gas, and Lean Gas
121(1)
4.7 Reservoir Screening
121(1)
4.8 Corrosion
122(1)
4.9 Design Standards and Recommended Practices
123(2)
4.10 Water-Alternating-Gas Process
125(2)
4.11 Estimating Recovery
127(2)
4.12 CO2 Properties and Required Volumes
129(10)
References
133(6)
5 Thermal Recovery Processes
139(48)
Forough Ameli
Ali Alashkar
Abdolhossein Hemmati-Sarapardeh
5.1 Introduction
139(1)
5.2 Various Thermal Enhanced Oil Recovery Processes
139(48)
Problems
182(1)
References
183(4)
6 Chemical Flooding
187(20)
Mohammad Ali Ahmadi
6.1 Introduction
187(1)
6.2 Chemical-Based Enhanced Oil Recovery Method
187(20)
References
201(6)
7 Waterflooding
207(26)
Mohammad Ali Ahmadi
7.1 Introduction
207(1)
7.2 Derivation of Continuity Equation for Displacement Front of Linear Displacement System
207(4)
7.3 Derivation of Continuity Equation for Displacement Front of Radial Displacement System
211(5)
7.4 Importance and Capability of Fractional Flow in Radial Flow System
216(5)
7.5 Application of Buckley-Leverett Theory and Fractional Flow Concept
221(1)
7.6 Low-Salinity Waterflooding
222(11)
References
227(6)
8 Enhanced Gas Recovery Techniques From Coalbed Methane Reservoirs
233(36)
Alireza Keshavarz
Hamed Akhondzadeh
Mohammad Sayyafzadeh
Masoumeh Zargar
8.1 Introduction
233(1)
8.2 Coalbed Methane Reservoir Properties
234(9)
8.3 Production Profile in Coals
243(1)
8.4 Gas-Flow Mechanism in Coals
244(9)
8.5 Coalbed Methane Productivity and Recovery Enhancement
253(16)
References
264(5)
9 Enhanced Oil Recovery (EOR) in Shale Oil Reservoirs
269(22)
Mohammad Ali Ahmadi
9.1 Introduction
269(3)
9.2 Shale Oil and Oil Shale
272(1)
9.3 EOR Methods in Shale Oil and Gas Reservoirs
273(9)
9.4 Environmental Aspects of Shale Oil and Gas Production
282(9)
References
286(5)
10 Microbial Enhanced Oil Recovery: Microbiology and Fundamentals
291(218)
Afshin Tatar
10.1 Introduction
291(1)
10.2 Definition
292(2)
10.3 Recovery Efficiency
294(3)
10.4 History
297(1)
10.5 Microbial Ecology
298(114)
10.6 Microbe Selection for MEOR
412(1)
10.7 Nutrients
413(1)
10.8 MEOR Applying Approaches in Field
414(1)
10.9 MEOR Methods
415(2)
10.10 Produce Biochemicals and Their Role in MEOR
417(14)
10.11 MEOR Mechanisms
431(6)
10.12 MEOR Constraints and Screening Criteria
437(10)
10.13 Field Trials
447(1)
10.14 Enzyme Enhanced Oil Recovery
448(18)
10.15 Genetically-Engineered Microbial Enhanced Oil Recovery
466(43)
References
467(42)
Index 509
Alireza Bahadori, PhD, CEng, MIChemE, CPEng, MIEAust, RPEQ, NER is a research staff member in the School of Environment, Science and Engineering at Southern Cross University, Lismore, NSW, Australia, and managing director and CEO of Australian Oil and Gas Services, Pty. Ltd. He received his PhD from Curtin University, Perth, Western Australia. During the past twenty years, Dr. Bahadori has held various process and petroleum engineering positions and was involved in many large-scale oil and gas projects. His multiple books have been published by multiple major publishers, including Elsevier. He is Chartered Engineer (CEng) and Chartered Member of Institution of Chemical Engineers, London, UK (MIChemE). Chartered Professional Engineer (CPEng) and Chartered Member of Institution of Engineers Australia, Registered Professional Engineer of Queensland (RPEQ), Registered Chartered Engineer of Engineering Council of United Kingdom and Engineers Australia's National Engineering Register (NER).
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