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Preface | p. xi |
Introduction to rock physics | p. 1 |
Introduction | p. 1 |
Velocity-porosity relations for mapping porosity and facies | p. 2 |
Fluid substitution analysis | p. 15 |
Pressure effects on velocity | p. 24 |
The special role of share wave information | p. 30 |
Rock physics ôWhat ifs?ö: fluid and lithology substitution | p. 42 |
All models are wrong…some are useful | p. 43 |
Rock physics interpretation of texture, llithology and compaction | p. 48 |
Introduction | p. 48 |
The link between rock physics properties and sedimentary microstructure: theory and models | p. 51 |
Example: rock physics interpretation of microstructure in North Sea turbidite systems | p. 70 |
Relating rock physics to lithofacies and depositional environments | p. 81 |
Example: seismic lithofacies in a North Sea turbidite system | p. 83 |
Rock physics depth trends | p. 90 |
Example: rock physics depth trends and anomalies in a North Sea field | p. 96 |
Rock physics templates: a tool for lilthology and fluid prediction | p. 101 |
Discussion | p. 107 |
Conclusions | p. 109 |
Statistical rock physics: Combining rock physics, information theory, and statistics to reduce uncertainty | p. 111 |
Introduction | p. 111 |
Why quantify uncertainty? | p. 112 |
Statistical rock physics workflow | p. 123 |
Information entropy: some simple examples | p. 132 |
More Carlo simulation | p. 136 |
Statistical classification and pattern recongniition | p. 138 |
Discussion and summary | p. 165 |
Common techniques for Quantitative seismic interpretation | p. 168 |
Introduction | p. 168 |
Qualitative seismic amplitude interpretation | p. 168 |
AVO analysis | p. 180 |
Impedance inveersion | p. 230 |
Forward seismic modeling | p. 252 |
Future directions in quantitative seismic interpreetation | p. 256 |
Case studies: Lithology and pore-fluid prediction from seismic data | p. 258 |
Case 1: Seismic reservoir mapping from 3D AVO in a North Sea turbidite system | p. 258 |
Case 2: Mapping lithofacies and pore-fluid probabilities in a North Sea reservoir using seismic impedance inversions and statistical rock physics | p. 278 |
Case 3: Sesimic lithology prediction and reservoir delineation using statistical AVO in the Grane field, North Sea | p. 295 |
Case 4: AVO depth trends for lithology and pore fluid classification in unconsolidated deep-water systems, offshore West Africa | p. 306 |
Case 5: Sesimic reservoir mapping using rock physics templates. Example from a North Sea turbidite system | p. 312 |
Workflows and Guidelines | p. 317 |
AVO reconnaissance | p. 318 |
Rock physics ôWhat ifsö and AVO feasibility studies | p. 320 |
RPT analysis | p. 322 |
AVO classification constrained by rock physics depth trends | p. 323 |
Seismic reservoir characterization constrained by lithofacies analysis and statistical rock physics | p. 325 |
Why and when should we do quantitative seismic interpretation? | p. 328 |
Hands-on | p. 332 |
Introduction | p. 332 |
Problems | p. 332 |
Project | p. 336 |
References | p. 340 |
Index | p. 356 |
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The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.