This book brings together the core workflows needed to move from subsurface understanding to efficient well delivery and improved production. It connects reservoir characterization, geomechanics, directional drilling, logging, petrophysical interpretation, completion design, and enhanced recovery planning in a single, coordinated framework.
Readers will find a structured approach to choosing drilling targets, defining safe mud windows, improving wellbore stability, and using real time measurements to guide trajectory decisions. The text also explains how well logs and petrophysical models support lithology identification, saturation analysis, permeability estimation, and flow unit mapping, all of which feed directly into completion and stimulation choices.
Key areas covered include:
Reservoir rock and fluid properties, static and dynamic models, and uncertainty handlingStress analysis, pore pressure estimation, failure mechanisms, and cement sheath integrityDirectional drilling planning, trajectory constraints, and geosteering workflowsMWD and LWD integration, data quality control, and depth matchingWell logging interpretation, environmental corrections, and perforation interval selectionPetrophysical modeling for permeability, capillary pressure, relative permeability, and flow unitsDrilling fluid design, hydraulics, cuttings transport, and ECD managementCasing, cementing, zonal isolation, and integrity verificationCompletion architecture, perforation design, sand control, and flow assuranceEnhanced recovery screening, injection design, surveillance, and reservoir model updatesEach chapter includes practical example workflows that show how engineers can apply concepts to real operational decisions, from geological target selection through production optimization. The case studies at the end of the book tie the entire process together, illustrating how measured data and engineering constraints shape better outcomes in the field.
Well suited for petroleum engineers, drilling engineers, reservoir engineers, petrophysicists, and graduate students who need a clear, applied reference for integrated subsurface development.