Fundamentals of Petroleum Geomechanics

Course Objectives

•   Explain the Mechanical Earth Model and how is the Mechanical Earth Model used.
•  Understand the origin of stresses in the subsurface and how in situ stresses can be understood from wellbore data.
•   Explain the Mechanical properties such as rock strength, and the origins of pore pressure and how it is measured and estimated.
•   Explain the importance of Rock Mechanics and identify the key terms and concepts that are used in studying Rock Mechanics.
•   Define the differing characteristics and uses of rock strength tests.
•   Explain the wellbore stability, sand production and hydraulic fracturing.
•  This course show how these data are applied through the Mechanical Earth Model to critical problems in exploration and field development.
•  The course includes an introduction to reservoir geomechanics, showing the geomechanical influence of pressure changes in the reservoir.

Who Should Attend? 

•  Geologists/Geophysicists/Geomechanics engineers
•   Drilling engineers
•    Production engineers
•    Completion engineers
•    Reservoir engineers
•  Exploration supervisors and managers concerned with the geomechanics challenges of field development and exploration
•  Supervisors and managers concerned with wellbore stability

Course Content

Day 1

•        What is geomechanics?
•        Mechanical Earth Model
•        Principles of Stress and Strain
•        Basics of stress and strain
•        The relationship between stress and strain
•        Principal earth stresses
•        Overburden stress
•        Mohr circles
•        Elasticity and elastic properties
•       Effective stress concepts and the importance of pore pressure
•        In-situ stress tensor
•        Stress field variations – structural effects
•        Stress measurements and analysis

Day 2

Rock mechanical properties

•       Rock Strength and Weakness
•        Hardness vs. Strength
•        Mohs Hardness Scale
•        Chemical Composition

Porosity and Permeability

•        Porosity Definition
•        Permeability Definition
•        Permeability Illustration
•        High Porosity and Low Permeability
•        Low Porosity and High Permeability
•        Porosity Illustration
•        High Porosity and High Permeability
•        Mechanical properties
•        Elasticity and other stress‐strain behavior
•        Failure and beyond
•        Thermal effects
•        Influence of faults and fractures
•        Rock mechanics testing

Day 3

Pore Pressure

•        Basic definitions
•        Origins of pore pressure
•        Causes of over pressure
•        Pore pressure and the Mechanical Earth Model
•        Leak off tests
•        Fracture gradients
•        Reservoir compartmentalization
•        Mechanisms of overpressure generation
•        Estimating pore pressure at depth

Day 4

Reservoir geomechanics

•        Compaction
•        Thermal
•        Depletion effects
•        Well integrity
•        Plasticity

Day 5

Petroleum Applications

•        Well Planning
•        Wellbore Stability
•        Drilling Optimization
•        Reservoir stress management
•        Hydraulic fracture design
•        Structural Permeability
•        Fault Seal Analysis

Sand prediction

•        Sanding Evaluation
•        Impact of Sand production
•        Nature of Sand Production
•        Sand Prediction Model

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