Gathering Natural Fracture Orientation and Intensity Data Indirectly (Englisch)
- Neue Suche nach: Nelson, R.A.
- Neue Suche nach: Nelson, R.A.
In:
Static Conceptual Fracture Modeling
: Preparing for Simulation and Development
;
35-50
;
2019
-
ISBN:
- Aufsatz/Kapitel (Buch) / Elektronische Ressource
-
Titel:Gathering Natural Fracture Orientation and Intensity Data Indirectly
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Beteiligte:Nelson, R.A. ( Autor:in )
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Erschienen in:Static Conceptual Fracture Modeling : Preparing for Simulation and Development ; 35-50
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Verlag:
- Neue Suche nach: John Wiley & Sons, Ltd
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Erscheinungsort:Chichester, UK
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Erscheinungsdatum:22.10.2019
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Format / Umfang:16 pages
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ISBN:
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DOI:
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Medientyp:Aufsatz/Kapitel (Buch)
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Format:Elektronische Ressource
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Sprache:Englisch
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Schlagwörter:
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Datenquelle:
Inhaltsverzeichnis E-Book
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
- 1
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Purpose and ScopeNelson, R.A. et al. | 2019
- 3
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What Is a Static Conceptual Fracture Model and Why Do We Build It?Nelson, R.A. et al. | 2019
- 9
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Fracture Model Creation WorkflowNelson, R.A. et al. | 2019
- 13
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Gathering Natural Fracture Orientation and Intensity Data DirectlyNelson, R.A. et al. | 2019
- 35
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Gathering Natural Fracture Orientation and Intensity Data IndirectlyNelson, R.A. et al. | 2019
- 51
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Analyzing the Natural Fracture Data Once GatheredNelson, R.A. et al. | 2019
- 71
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Gathering and Analyzing Structural DataNelson, R.A. et al. | 2019
- 81
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Gathering Constraints on Fracture ApertureNelson, R.A. et al. | 2019
- 91
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Creation of Natural Fracture Scaling LawsNelson, R.A. et al. | 2019
- 95
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Gathering and Analyzing Mechanical Property Distribution DataNelson, R.A. et al. | 2019
- 105
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Locating Fracture CorridorsNelson, R.A. et al. | 2019
- 111
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Rock Anisotropy and its Importance in Determining Dominant‐Fracture Orientation and Relative IntensityNelson, R.A. et al. | 2019
- 115
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Determine the In‐situ Stress Directions and Magnitudes and their VariationNelson, R.A. et al. | 2019
- 123
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Production CalibrationNelson, R.A. et al. | 2019
- 129
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Determining the Fractured Reservoir Classification and, Therefore, Which Simulation Style Is Most AppropriateNelson, R.A. et al. | 2019
- 135
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Use of Reservoir AnalogsNelson, R.A. et al. | 2019
- 139
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The Importance of 3D Visualization in Data Integration and Static Fracture Model CreationNelson, R.A. et al. | 2019
- 143
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Thoughts on History Matching of Simulation ResultsNelson, R.A. et al. | 2019
- 145
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Preparing the Fracture Data for Input to the Gridded ModelNelson, R.A. et al. | 2019
- 149
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Discussion of Error and Uncertainty in the Modeling ProcessNelson, R.A. et al. | 2019
- 151
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Published Examples of the ProcessNelson, R.A. et al. | 2019
- 155
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Final CommentsNelson, R.A. et al. | 2019
- 157
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Appendix A: Detailed Static Fracture Modeling WorkflowNelson, R.A. et al. | 2019
- 169
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Appendix B: How we Use Various Seismic Attributes to Predict Natural Fracture Intensity in the Subsurface, After Nelson (2006)Nelson, R.A. et al. | 2019
- 173
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Appendix C: How I Learned to Interpret Natural Fractures in CoreNelson, R.A. et al. | 2019
- 175
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Symbols and AbbreviationsNelson, R.A. et al. | 2019
- 177
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ReferencesNelson, R.A. et al. | 2019
- 185
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IndexNelson, R.A. et al. | 2019
- i
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Front MatterNelson, R.A. et al. | 2019