Oil & Gas Training
and Competency Development

Location Pau, France
Start23 Nov 2020
End27 Nov 2020
Discipline Drilling Engineering ,
Duration5 Days
CostUSD 4,300.00
Delivery Mechanism Classroom
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Fundamentals of Petroleum Geomechanics

4.5 Average client rating (based on 208 attendee reviews)

This course covers the necessary fundamentals of geomechanics for wellbore applications; the origin of stresses in the subsurface and how in situ stresses can be understood from wellbore data; mechanical properties such as rock strength, and the origins of pore pressure and how it is measured and estimated. The course then proceeds to show how these data are applied through the Mechanical Earth Model to critical problems in exploration and field development. There are detailed case studies on wellbore stability sand production and hydraulic fracturing. The course also includes an introduction to reservoir geomechanics, showing the geomechanical influence of pressure changes in the reservoir.

At the end of the course attendees will be able to:

  • Use routinely collected and specialized data to make basic geomechanical calculations for wellbore stability, sand production and hydraulic fracturing
  • Select and design data acquisition for geomechanical studies
  • Interpret image data to identify basic geomechanical behaviour

This course is also available as a 3 day class without classroom exercises 

  • Agenda
  • Topics
  • Instructors
  • Audience
  • Location
  • Agenda

    Day 1

    Fundamentals and experimental rock mechanics

    • The stress tensor, units, principal stresses, strain, resolving stresses on a plane, construct Mohr's Circle and analyze stress, elasticity and elastic properties, effective stress, internal friction, cohesion, modes of rock deformation, unconfined compressive strength, Mohr-Coulomb failure
    • Experimental rock mechanics, uniaxial and triaxial testing, thick wall cylinder tests, scratch testing, true triaxial tests, tensile tests, analyze results

    Day 2

    Stress, Pore pressure and the Mechanical Earth Model

    • Principal earth stresses, regional and local stresses, World Stress Map, Andersonian classification of faults, overburden stress, horizontal stress orientation, borehole breakouts, drilling-induced tensile fractures, image logs, horizontal stress magnitudes, leak-off tests, fracture gradients
    • Origins of pore pressure, methods for measurement, methods for estimation, vertical and horizontal methods, Eaton’s method, real-time approach
    • Concept and construction of the Mechanical Earth Model, data requirements and types of input data

    Day 3

    Wellbore geomechanics and wellbore stability

    • Wellbore geomechanics, state of stress in the wellbore
    • Modes of rock deformation in the wellbore, the effect of well azimuth and inclination, simple calculations
    • Wellbore deformation in fractured rock masses and non-classical rock failures

    Day 4


    • An introduction to planning for wellbore stability and real time operations
    • Sand production and management, causes of sand failure, experimental evidence, an introduction to screenless completion design for sand prevention
    • Hydraulic fracturing, process of hydraulic fracturing, geomechanical factors effecting fracture development and simple calculations
    • Reservoir behaviour, an introduction to compaction and subsidence, well integrity, use of 4D seismic in geomechanics and the effects of injection (pressure maintenance, waste disposal and gas storage)

    Day 5

    Case study practical

    • Working in teams, an opportunity to put into practice the geomechanics learnt during the week to design a wellbore stability plan for a proposed high angle well.
  • Topics

    Key Learning Elements

    • Fundamental understanding of the petroleum geomechanics.
    • Data requirements for geomechanical studies
    • Application of geomechanics to wellbore applications
    • The use of the Mechanical Earth Model in geomechanical studies
  • Instructors

    Vincenzo De Gennaro
  • Audience

    Geologists, geophysicists, drilling engineers, production engineers, completion engineers, reservoir engineers, exploration supervisors and managers concerned with wellbore stability, sand production, screenless completions, fracture stimulation, overpressures or image log interpretation.

  • Prerequisites

  • Location


    The historic town of Pau has a mild climate, numerous parks and gardens, and stunning views of the Pyrenees Mountains.

    Pau Château

    The town and surrounding region are renowned for excellent food and superb local delicacies and offer a wide range of sporting events and activities to keep you entertained on evening and weekends. Pau is home to several top national sports teams (basketball, rugby, handball), the oldest golf course in continental Europe and superb new spa facilities, and is just a stone’s throw from ski slopes, mountain trails and sandy beaches.

    The NExT Training Centre Pau is easily accessible via regular international flights to Pau Pyrenees Airport and TGV rail links from Paris. NExT can help you with organizing your local transport and accommodation.

    • Timezone : GMT+01:00, Europe (Paris)
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