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Worked solutions of Prof. Mark Zoback's Reservoir Geomechanics Spring Course 2020 (StanfordOnline: GEOPHYSX0001) homeworks implemented using Python in ipynb notebooks
His course is provided in EdX online learning website.
👉 Course videos and presentation slides stored in this Google Drive (not free access)
| Week | Topic | Homework PDF | Worked Solution |
|---|---|---|---|
| 1 | Overburden stress and porosity | Notebook | |
| 2 | Estimating the Onset of Overpressure | Notebook | |
| 3 | Estimating Rock Strength from Geophysical Logs | Notebook | |
| 4 | Estimating Bounds on the Maximum Horizontal Stress | Notebook | |
| 5 | Analyzing Natural Fractures | Notebook | |
| 6 | Constraining the Maximum Horizontal Stress from Wellbore Failure | Notebook | |
| 7 | Development of a Geomechanical Model | Notebook | |
| 8 | Identifying Critically Stressed Fractures | Notebook |
Worked solutions of Prof. Mark Zoback's Unconventional Reservoir Geomechanics Spring Course 2020 (Stanford Online: GEOPHYSX0004) homeworks implemented using Python in ipynb notebooks
More advanced course continuation of Reservoir Geomechanics, course also available in EdX.
👉 Presentation slides stored in this Google Drive (not free access)
| Week | Topic | Homework PDF | Worked Solution |
|---|---|---|---|
| 1 | State of Stress in Unconventional Reservoirs | Notebook | |
| 2 | Composition and Elastic Properties | Notebook | |
| 3 | Ductility and Stress Magnitudes | Notebook | |
| 4 | Permeability and Flow Mechanism | Notebook | |
| 5 | Reservoir Seismology | Notebook | |
| 6 | Induced Shear Slip on Faults | Unavailable yet | Unavailable yet |
