Oil & Gas Training
and Competency Development

Location Pau, France
Start12 Mar 2018
End16 Mar 2018
Discipline Petrophysics ,
Field Development Planning
Duration5 Days
CostEUR 3,400.00
Delivery Mechanism Classroom
20% discount will be applied during checkout.
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Integrated Reservoir Analysis

4.6 Average client rating (based on 266 attendee reviews)

The goal of Integrated Reservoir Analysis is for participants to understand the concepts and develop subsurface skills to integrated analysis of rock, pore, and fluids from various sources.  Participants gain an appreciation of working with various scales (micro to mega) to solve problems associated with identifying and exploiting reserves. Concepts gained will allow participants to apply tools for analysis of the underlying uncertainty and assumptions used in many reservoir analysis techniques. A subsurface integration process model is presented which provides a multidiscipline methodology for solving reservoir problems, from facies, petrophysical rock typing, flow unit characterization and an introduction to capillary pressure saturation height modeling.  Throughout the course the participants are encouraged to think about "big picture" volume in-place, static modelling and dynamic reservoir simulation. 

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

    Day 1

    • Introduction, integration work and thought process
    • Rock Types/Flow units and reservoir characterization
    • Applied examples and deliverables
    • Geologic framework, mineralogy, reservoir compartmentalization, formation evaluation
    • Introduction to static and dynamic reservoir simulation
    • Introduction to the conceptual 3-Line log analysis method
    • Applied hands on workshops

    Day 2

    • Introduction to reservoir and lithofacies
    • Participant presentation 1 - Facies workshop results
    • Carbonate pore-geometry, thin-section and petrophysical description workshop and presentation 
    • Introduction to Routine Core Analysis
    • Core porosity
    • Workshop - Golfball challenge
    • Overview of well log porosity, total and effective porosity

    Day 3

    • Overview of core permeability (absolute, effective, Klinkenburg corrected and relative permeability)
    • Basics of net mean stress
    • Fundamentals of Petrophysical rock types
    • Overview and the concept of practical capillary pressure and applications
    • Workshop - Capillary pressure analysis
    • Saturation distributions from rock types, and capillary pressure data
    • What is Winland (Pittman) pore throat radius and why is it important
    • Workshop - Winland Plots by Facies
    • Workshop - Simple core analysis using Winland based method

    Day 4

    • Clastic - Facies and Petrophysical rock types case studies
    • Carbonate - Facies and Petrophysical rock type case studies
    • Capillary pressure and pore geometry, stress and reservoir performance, petrophysical quick scan analysis
    • Permeability, relative permeability and wettability
    • Archie saturation, cementation, and saturation exponent (optional)
    • Workshop - Well evaluation with core and log data
    • Participant presentations of workshop results

    Day 5

    • Introduction to saturation height methods (SHM)
    • Wettability and why it is important (optional)
    • SHM case studies both clastic and carbonate
    • Introduce flow unit concept, analysis and workshop
    • Final well analysis workshop - facies, core-log petrophysical rock types, flow units and saturation height model Individual and presentations
  • Topics

    1. Generic integrated workflow process

    2. Integration of geology, facies and petrophysical rock types

    3. Concept of total and effective porosity

    4. The basics of core-log integration

    5. Applied capillary pressure, wettability and relative permeability

    6. "Water saturation is not an accident......"

    7. Upscaling from pore throat radius to petrophysical rock type to flow units

    8. Introduction applied capillary pressure and saturation height modeling

    9. Why petrophysics is the key to success in a static or dynamic model

    10. The relationship between the free-water level, various contacts, pore throat radius, wettability and saturation distribution

  • Instructors

    Gary Gunter
  • Audience

    Geologists, geophysicists, reservoir engineers, production engineers and petrophysicists. This class is ideal for asset teams.

  • Prerequisites

    Intermediate understanding of geology and petrophysics.

  • 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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