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|a 1054834375
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|a 9781119387961
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|z 1119387949
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|a (OCoLC)1056062547
|z (OCoLC)1054834375
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|a TN870
|b .S266 2019
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|a 665.5
|2 23
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|a UAMI
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|a Sanni, Moshood.
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|a Petroleum Engineering.
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| 260 |
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|a Newark :
|b American Geophysical Union,
|c 2018.
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| 300 |
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|a 1 online resource (521 pages)
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| 336 |
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
|2 rdacarrier
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| 490 |
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|a Geophysical Monograph Ser. ;
|v v. 237
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|a Print version record.
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|a Intro; TITLE PAGE; COPYRIGHT PAGE; CONTENTS; PREFACE; ACKNOWLEDGMENTS; Chapter 1 Petroleum System and Petroleum Engineering; 1.1. THE PETROLEUM ENGINEER; 1.2. ROLES OF THE PETROLEUM ENGINEER IN THE FIELD LIFE CYCLE; 1.3. ORIGIN OF PETROLEUM; 1.4. PETROLEUM SYSTEM; 1.4.1. Petroleum Source Rocks; 1.4.2. Petroleum Migration; 1.4.3. Reservoir Rock; 1.4.4. Seal Rock; 1.4.5. Traps; 1.5. PETROLEUM RESERVOIRS; 1.5.1. Reservoir Fluid Zones; 1.5.2. Reservoir Hydrocarbon Volumes; 1.6. PETROLEUM RESOURCE CLASSIFICATION; 1.6.1. Prospective Resources; 1.6.2. Contingent Resources; 1.6.3. Reserves.
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|a 1.6.4. Reserve Estimation Methods1.6.5. Use of Seismic Data for Petroleum Resource Calculation; 1.6.6. Resource Estimation at Different Stages of Life Cycle; 1.6.7. Reserve Reporting and Audit; REFERENCES; BIBLIOGRAPHY; Chapter 2 Petroleum Reservoir Rock Properties; 2.1. POROSITY; 2.1.1. Absolute and Effective Porosity; 2.1.2. Porosity Determination; 2.2. PERMEABILITY; 2.2.1. Henry Darcyś Experiment; 2.2.2. Darcyś Law for Liquids; 2.2.3. Darcyś Law for Gas; 2.2.4. Non-Darcy Flow; 2.2.5. Averaging Reservoir Permeability.
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|a 2.3. EFFECTIVE CONFINING PRESSURE DEPENDENCE OF POROSITY AND PERMEABILITY2.4. WETTABILITY; 2.4.1. Wettability Measurement; 2.5. CAPILLARY PRESSURE; 2.5.1. Capillary Tube Analogy of Porous Media; 2.5.2. Capillary Pressure and Fluid Distribution; 2.5.3. Capillary Pressure Defined as a Function of Radii of Curvature of Interface; 2.5.4. Experimental Determination of Capillary Pressure; 2.5.5. Leverett J-Function; 2.5.6. Empirical Relationship for Capillary Pressure; 2.5.7. Saturation Height Function Prediction in Reservoirs; 2.6. RELATIVE PERMEABILITY; 2.6.1. Relative Permeability Models.
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|a 2.6.2. Three-phase Relative PermeabilityREFERENCES; BIBLIOGRAPHY; Chapter 3 Reservoir Fluid Properties; 3.1. PHASE BEHAVIOR OF PETROLEUM HYDROCARBONS; 3.1.1. Black Oil (Low Shrinkage Oil); 3.1.2. Volatile Oil (High Shrinkage Oil); 3.1.3. Retrograde Gas (Gas Condensate); 3.1.4. Wet Gas; 3.1.5. Dry Gas; 3.2. NATURAL GAS PROPERTIES; 3.2.1. Ideal Gas Behavior; 3.2.2. Real Gas Behavior; 3.2.3. Equation of State for Predicting Real Gas Behavior; 3.3. CRUDE OIL PROPERTIES; 3.3.1. Crude Oil Property Correlations; 3.3.2. Liquid Viscosity Model; 3.3.3. Interfacial Tension.
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| 505 |
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|a 3.4. VAPOR LIQUID EQUILIBRIUM (VLE)3.4.1. Flash Calculations; 3.4.2. K Value Calculations; 3.4.3. Properties of Pseudocomponents; 3.4.4. Saturation Points; 3.5. RESERVOIR FLUID SAMPLING; 3.5.1. Bottomhole Sampling; 3.5.2. Surface Sampling; 3.6. FLUID EXPERIMENTS; 3.6.1. Gas Laboratory Experiment; 3.6.2. Oil Laboratory Experiment; 3.6.3. Enhanced Oil Recovery Experiments; REFERENCES; BIBLIOGRAPHY; Chapter 4 Equations of States; 4.1. GENERALIZED REPRESENTATION OF EOS MODELS; 4.2. EOS MODELS FOR MULTICOMPONENTS; 4.2.1. Simple Mixing Rule; 4.2.2. van der Waals Mixing Rule.
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|a 4.2.3. EOS Model Parameters.
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| 590 |
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|a ProQuest Ebook Central
|b Ebook Central Academic Complete
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| 650 |
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0 |
|a Petroleum engineering.
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| 650 |
|
6 |
|a Technique du pétrole.
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| 650 |
|
7 |
|a Petroleum engineering
|2 fast
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| 776 |
0 |
8 |
|i Print version:
|a Sanni, Moshood.
|t Petroleum Engineering: Principles, Calculations and Workflows.
|d Newark : American Geophysical Union, ©2018
|z 9781119387947
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| 830 |
|
0 |
|a Geophysical Monograph Ser.
|
| 856 |
4 |
0 |
|u https://ebookcentral.uam.elogim.com/lib/uam-ebooks/detail.action?docID=5528446
|z Texto completo
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