Training

Systematically driven courses

Software training is available through courses that encompass all the available software, including petroleum systems modeling, reservoir characterization, and reservoir engineering. Courses for beginners to advanced users range from training for individual applications to integrated workflow workshops.

Training

E&P Training

Software Training

Our Training Programme

Introduction to Reservoir Simulation using PumaFlow™
Dual Medium Reservoir Simulation using FracaFlowTM and PumaFlow™
Uncertainty Analysis using CougarFlow™
Interpretation and Modeling of Fractured Reservoirs using FracaFlow™
Forward Stratigraphic Modeling with DionisosFlow™
Petroleum System Modeling with TemisFlow™
Seismic Inversion and Characterization with InterWellTM and EasyTrace™
Getting Hands on Log Data Edition and Processing with EasyTrace™
4 days
5 days
3 days
3 days
5 days
10 days
5 days
3 days

Introduction to Reservoir Simulation using PumaFlow™

4 days

Dual Medium Reservoir Simulation using FracaFlowTM and PumaFlow™

5 days

Uncertainty Analysis using CougarFlow™

3 days

Interpretation and Modeling of Fractured Reservoirs using FracaFlow™

3 days

Forward Stratigraphic Modeling with DionisosFlow™

5 days

Petroleum System Modeling with TemisFlow™

10 days

Seismic Inversion and Characterization with InterWellTM and EasyTrace™

5 days

Getting Hands on Log Data Edition and Processing with EasyTrace™

3 days

Introduction to Reservoir Simulation using PumaFlow™

DURATION
4 days

OBJECTIVE
To provide a theoretical and a practical understanding of the main concepts and options of the reservoir simulator PumaFlow™.

WHO SHOULD ATTEND
Reservoir engineers

Day 1: Building of a project in PumaFlow™

  • Introduction to OpenFlow™
  • Building a PumaFlow™ simulation:
    Geometrical and Petrophysical data
    Kr-Pc
    Thermodynamics (PVT)
    Initial state
    Wells trajectories and Production history
  • First fluid flow simulation with PumaFlow™
  • Results analysis with OpenFlow™ advanced tools

Day 2: Forecast simulations

  • Configuring the prediction activity
    Pressure Maintenance and Remedial Operation library Group constraints
  • The Windowing option and Simulation on a sector.

Day 3-4: Compositional, Dual Medium, Chemical EOR, Thermal EOR simulations

  • Configuring and running a compositional simulation
    Compositional simulation with surface facilities and two PVT models (surface and reservoir)
  • Dual Medium simulation: Dual-porosity/Dualpermeability case
  • Chemical EOR context simulation: Polymer, Surfactant Alkaline implementation case
  • Thermal context simulation: SAGD implementation case

Uncertainty Analysis using CougarFlow™

DURATION
3 days

OBJECTIVE
To provide attendees with complete methodology for Uncertainties Management on Brown Fields with CougarFlow™.

WHO SHOULD ATTEND
Reservoir engineers and geologist

Day 1: CougarFlow™ Methodology – Uncertainty Identification and Evaluation

  • Definition and Management of Uncertainties in Reservoir Simulation
  • Introduction to OpenFlow™ and project initialization for Uncertainty Management
  • Experimental Design and Response Surface approach for Uncertainty Management
  • Field Development plans
  • Screening phase
  • Uncertainty Parameters Ranking

Day 2: Uncertainty Constrained by Historical Data

  • Introduction of Historical Data & Objective Function Definition
  • Probabilistic Optimization
  • Reduction of Parameters Ranges
  • Prediction under uncertainty

Day 3: Uncertainty Impact – Recommendations

  • Mitigation, Contingency
  • Best Practices
  • Conclusions

Interpretation and modeling of Fractured Reservoirs using FracaFlow™

DURATION
3 days

OBJECTIVE
To provide attendees with the basic concept for Naturally Fractured Reservoir Modeling and deliver proficient skills for the use of FracaFlow™.

WHO SHOULD ATTEND
Geologists, Petrophysicists, Reservoir engineers involved in fracture reservoir development.

Day 1: Introduction, data import and Fracture & Fault characterization (NF case study)

  • Theoretical notions about Fractured reservoirs
  • Overview of OpenFlow platform
  • Data Import
  • Fracture analysis at wells
  • Orientation, dispersion
  • Sets creation
  • Fracture density computation
  • Fault analysis

Day 2: Fracture Network Modeling, Model Calibration and Equivalent parameters computation (NF case study)

  • Fracture and fault modeling / DFN generation
     Diffuse fractures and faults
    – Quality control
  • Calibration with KH data
  • Equivalent parameters computation

Day 3: Advanced workflows Overview (Member case study)

  • Dynamic analyses
    – Mud loss, flowmeter, well test, production data
    – Quick Assessment of Fracturing Synthesis
  • Fracture Density Controler determination
    – Fracture Density log computation
    – Fracture Density Controler computation
    – Geostatistical simulations
  • Calibration with flow-based methods
  • Demonstration of Uncertainty analysis with CougarFlow™

Dual Medium Reservoir Simulation using FracaFlow™ and PumaFlow™

DURATION
5 days

OBJECTIVE
To provide attendees with a conceptual background in stratigraphic modeling and deliver proficient skills for the use of DionisosFlow™.

WHO SHOULD ATTEND
Petrophysicists, geologists and geochemists.

Day 1: General Concepts – Naturally Fractured reservoirs

  • Definition and types of fractures and fractured reservoirs – Impact on fluid flow
  • Fracture Characterization – Dynamic Data Analysis
  • Fracture Modeling
    – Conceptual Fracture Model
    – Discrete Fracture Network (DFN)

Day 2: Dynamic Calibration of DFN and Upscaling of Fracture Properties using FracaFlow™

  • Quality Check of DFN Model
  • Calibration of DFN model with Dynamic data
  • Upscaling – Calculating Equivalent Fracture parameter for simulation

Day 3: Concepts of DPDP Simulation, Flow Mechanism

  • Flow Mechanism in Fractured Reservoir
  • Choice of Simulation (SPSP or DPDP)
  • Dual Porosity Model – Basic ideas
  • Matrix-Fracture Transfer Mechanism
  • Modeling and Simulation of Super K
  • Convergence Problem with Dual Medium Simulation

Day 4 & 5: Hands on Using PumaFlow™

  • Get familiar with PumaFlowTM workflow
  • Impact of Capillary Pressure on Single Medium Simulation
  • Effect of Dual Media over Single Media Simulation
  • Impact of wettability on Dual Medium Simulation
  • Impact of Matrix Block Sizes on Dual Medium Simulation
  • Fluid movement through Fracture corridor
  • Impact of Matrix block sizes on the Gas drive

Forward Stratigraphic Modeling with DionisosFlow™

DURATION
5 days

OBJECTIVE
To provide attendees with a conceptual background in stratigraphic modeling and deliver proficient skills for the use of DionisosFlow™.

WHO SHOULD ATTEND
Petrophysicists, geologists and geochemists.

Day 1: Theory on Stratigraphic Modeling

  • Introduction to Stratigraphic Modeling
  • Basin Settings (Paleobathymetry, Subsidence, Eustasy…)
  • Sediment Inputs (Clastics, Carbonates)

Day 2: Introduction to DionisosFlow™

  • Required Data for DionisosFlow Model
  • Typical Workflow for Stratigraphic Modeling
  • Focus on Accommodation Concepts

Day 3: Synthetic Exercises

  • Clastic Environment: building a Delta
  • Carbonate Environment: building a Platform

Day 4: Xes Model (eXperimental Earth System)

  • Data Import
  • Model Domain Definition
  • Definition of the Structural Evolution, Sediment Supply and Transport
  • Simulation and Post-Processing Analysis
  • Focus and Exercise on the Transport Parameters

Day 5: Suez Model (Mixed Environment)

  • Model Building
  • Simulation and Post-Processing Analysis
  • Model Calibration through Map Computation and Well Comparison
  • Definition of Facies

Petroleum System Modeling with TemisFlow™

DURATION
10 days

OBJECTIVE
To provide attendees with necessary knowledge on basin modeling concepts and deliver proficient skills for the use of TemisFlow™.

WHO SHOULD ATTEND
All exploration team members and leaders including geologists, geophysicists, geochemists who are involved in basin modeling.

Day 1: Fundamentals of Basin Modeling

  • Basin Modeling Building
  • Thermal Modeling
  • Pressure Modeling
  • Migration Modeling & Prospect Assessment
  • Risk Analysis

Day 2: 1D Basin Modeling

  • 1D Model Building
  • Lithological & Geochemical Data Management
  • Simple and Advanced Thermal Modeling
  • Maturity Assessment

Day 3, 4 & 5: TemisFlow™ 2D Training

  • 2D Section Building
  • Lithological & Geochemical Data Management
  • Faults & Erosion Modeling
  • Salt Restoration
  • Advanced Basement Building
  • PT Simulation & Calibration
  • Full Darcy Migration
  • Advanced Post-Processing

Day 6, 7, 8 & 9: TemisFlow™ 3D Training

  • Import & Interpretation of Observed Data
  • Sedimentary Model Building
  • Lithological & Geochemical Data Management
  • Faults & Erosion Modeling
  • Advanced Salt Restoration and Basement Building.
  • PT Simulation.
  • Multi-Well Calibration
  • Expulsion Simulation
  • Basic & Advanced Post-Processing
  • Full Darcy Migration Simulation & Post-Processing

Day 10: Free Hand Session

  • Possibility to work on users’ data
  • Possibility to perform extra exercises

Seismic Inversion and Characterization with InterWell™ and EasyTrace™

DURATION
5 days

OBJECTIVE
To provide attendees with necessary knowledge on seismic inversion concepts and deliver proficient skills for the use of InterWellTM and EasyTraceTM for geophysical applications.™.

WHO SHOULD ATTEND
Geophysicists

Day 1: Data pre-processing in EasyTrace

  • Well data preparation with EasyTrace

Day 2: InterWell presentation and signal analysis Wavelet

  • Data import in InterWell
  • Data preparation
  • Multi-Coherency Analysis of seismic traces 

Day 3: Signal analysis and initial impedances modeling

  • Wavelet Estimation
  • Initial model building: structure
  • Initial model building: modeling

Day 4: Seismic inversion

  • Inversion run
  • Inversion results QC

Day 5: Reservoir Characterization

Getting Hands on Log data edition and processing with EasyTrace™

DURATION
3 days

OBJECTIVE
To provide attendees with practical knowledge to deal with well data using EasyTraceTM. Two days are dedicated to geological applications with a focus on electrofacies analysis and rock-typing.

WHO SHOULD ATTEND
Geologists or reservoir engineers involved in rock-typing determination.

Day 1: Data pre-processing in EasyTrace

  • Software overview.
  • Data management: survey, wells and tables management.
    – Data Import/export –settings. Contextual menus and dynamic traces.
  • Wells: spreadsheet and trace display, calculator, log edition. Conversion and multi-well facilities.
  • Tables: histograms and cross-plots, plots interactivity.
  • Multi-graph and correlation graph.

Day 2 & 3: Geological applications

  • Principles of rock-typing: the workflow, automatic electrofacies analysis presentation.
  • Basics of electrofacies determination: data representation, clustering, the two complementary approaches.
  • Electrofacies analysis – the supervised approach: discriminant analysis.
  • Electrofacies analysis – the non-supervised approach: Kmeans method, pdf-based cluster analysis.
  • Principal component analysis.
  • From electrofacies to rock-type: curves classification, modeling, water saturation log computation.

Want to request for training?

Register here if you have a request for training, workshop or technical sharing session. You will also receive the latest updates & announcements on our next training.

Want to request for training?

Register here if you have a request for training, workshop or technical sharing session. You will also receive the latest updates & announcements on our next training.

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