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Mathematical GeoEnergy : Oil Discovery, Depletion and Renewable Energy Analysis.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Newark :
American Geophysical Union,
2018.
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| Colección: | Geophysical Monograph Ser.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; Title Page; Copyright Page; Contents; Preface; Chapter 1 Introduction to Mathematical Geoenergy; 1.1. NONRENEWABLE GEOENERGY; 1.2. RENEWABLE GEOENERGY; REFERENCES; Chapter 2 Stochastic Modeling; 2.1. ODDS AND UNCERTAINTY AND THE PRINCIPLE OF MAXIMUM ENTROPY; 2.2. DISPERSION; 2.3. APPLICATION OF THE MAXIMUM ENTROPY IDEAS; REFERENCES; Part I: Depletion; Chapter 3 Fossil Fuel Depletion Modeling; 3.1. PEAK OIL; REFERENCES; Chapter 4 Discovering Oil Reserves; 4.1. FILLING THE RESERVOIRS; 4.2. DISPERSIVE AGGREGATION MODEL OF RESERVOIR SIZES; 4.3. COMPARISON WITH REAL DATA
- 4.4. GEOLOGIC TIME AND URR4.5. CASE STUDIES; 4.6. FINDING NEEDLES IN A HAYSTACK: HOW WE DISCOVER OIL; 4.7. DISPERSIVE DISCOVERY; 4.8. DISPERSIVE DISCOVERY AS A HUBBERT CURVE; 4.9. TYPES OF GROWTH; 4.10. CHARACTERIZING GROWTH IN DISCOVERIES; REFERENCES; Chapter 5 Analysis of Production and the Shock Model; 5.1. BASIC MODEL; 5.2. THE PATH FROM DISCOVERIES TO PRODUCTION; 5.3. THE SHOCK MODEL: THE FUNDAMENTAL LINK BETWEEN DISCOVERY AND PRODUCTION; 5.4. SOLVING THE OIL SHOCK MODEL; 5.5. FULL ELABORATION OF THE SHOCK MODEL; 5.6. THE CANONICAL CURVE; 5.7. LAPLACE TRANSFORM
- 5.8. LIMITING DISTRIBUTIONS5.9. THE ROLE OF GEOLOGY IN PRODUCTION; REFERENCES; Chapter 6 Characterizing Discovery, Production, and Reserve Growth; 6.1. TWO PROCESSES TO OIL DEPLETION; 6.2. SUBSTANTIATING DISPERSIVE DISCOVERY; 6.3. NOISE; 6.4. APPLYING THE COMBINED MODEL TO GLOBAL CRUDE OIL PRODUCTION; 6.5. PRODUCTION AS DISCOVERY?; 6.6. THE RESERVE GROWTH; 6.7. RECOVERY FACTOR; 6.8. SOLVING THE ENIGMA OF RESERVE GROWTH; 6.9. DIFFUSIONAL GROWTH; 6.10. DRAINAGE DIFFUSION; 6.11. ADDING FINITE CONSTRAINTS; 6.12. DISPERSIVE VERSUS DIFFUSION MODEL OF RESERVE GROWTH; 6.13. THE HYPERBOLIC MODEL
- 6.14. CREAMING CURVES AND DISPERSIVE DISCOVERY6.15. DIFFUSIVE FLOW OF BAKKEN SHALE OIL; REFERENCES; Chapter 7 Comparing the Oil Production Model to Data; 7.1. THE DERIVATION OF LOGISTIC-SHAPED DISCOVERY; 7.2. HUBBERT LINEARIZATION; 7.3. GENERAL DISPERSIVE DISCOVERY AND THE LAPLACE TRANSFORM; 7.4. SCALING AND THE DISPERSIVE DISCOVERY GROWTH FUNCTION; 7.5. REMOVING THE DISPERSION; 7.6. THE OIL PRODUCTION PROCESS: DECOMPOSING DEPLETION TO INDIVIDUAL REGIONS; 7.7. THE IDEA OF SHOCKLETS; 7.8. SHOCKLET ENVELOPES; 7.9. SHOCKLETS IN ACTION; 7.10. DIGGING DEEPER: REGIONAL PRODUCTION
- 7.11. DISCOVERY AND PRODUCTION MODELSREFERENCES; Chapter 8 Alternative Characterization and Models; 8.1. ASSUMPTIONS AND MARGINS OF ERROR; 8.2. EVEN INFINITE GROWTH WILL NOT MATTER IN THE LONG RUN; 8.3. WORKING WITH RESERVES ONLY; 8.4. MONITORING RESERVE PEAK; 8.5. WAITING FOR FURTHER GROWTH; 8.6. STATISTICAL PRECISION; 8.7. HUBBERT PEAK IN FOUR STEPS; 8.8. CONSISTENCY CHECK FOR DISPERSIVE DISCOVERY; 8.9. ALTERNATE HEURISTIC APPROACHES; 8.10. WHY WE CANNOT PUMP FASTER; 8.11. DEMAND DESTRUCTION; 8.12. THE GOMPERTZ IN PRACTICE; REFERENCES; Chapter 9 Models for Future Production