2016

Software Training Courses

Day 1: Building of a project in PumaFlow™ • Introduction to OpenFlow™ • Building a PumaFlowTM simulation:

Geometrical and Petrophysical data Kr-Pc Thermodynamics (PVT) Initial state Wells trajectories and Production history

• First fluid flow simulation with PumaFlowTM

• Results analysis with OpenFlowTM 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/Dual-permeability case

• Chemical EOR context simulation: Polymer, Surfactant Alkaline implementation case

• Thermal context simulation: SAGD implementation case

Introduction to Reservoir Simulation using PumaFlow™

2

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: 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

Uncertainty Analysis using CougarFlow™

3

DURATION: 3 days OBJECTIVE: To provide attendees with complete methodology for Uncertainties Management on Brown Fields with CougarFlow™. WHO SHOULD ATTEND: Reservoir engineers and geologists.

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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 CougarFlowTM

Interpretation and modeling of Fractured Reservoirs using FracaFlow™

4

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.

Dual Medium Reservoir Simulation using FracaFlow™ and PumaFlow™

5

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 PumaFlow™ 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

DURATION: 5 days OBJECTIVE: To provide a brief understanding of Fracture Characterization & Modeling and a thorough knowledge of Dual Porosity-Dual Permeability simulation using FracaFlow™ and PumaFlow™. WHO SHOULD ATTEND: Reservoir engineers involved in dynamic simulation of fractured reservoirs.

Day 1: Theory on Stratigraphic Modeling • Introduction to Stratigraphic Modeling • Basin Settings (Paleobathymetry, Subsidence, Eustasy…) • Sediment Inputs (Clastics, Carbonates) Day 2: Introduction to DionisosFlowTM

• 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

Forward Stratigraphic Modeling with DionisosFlow™

6

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: 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: TemisFlowTM 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: TemisFlowTM 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

Petroleum System Modeling with TemisFlow™

7

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: Data pre-processing in EasyTrace • Well data preparation with EasyTrace Day 2: InterWell presentation and signal analysisWavelet • 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

Seismic Inversion and Characterization with InterWell™ and EasyTrace™

8

DURATION: 5 days OBJECTIVE: To provide attendees with necessary knowledge on seismic inversion concepts and deliver proficient skills for the use of InterWell™ and EasyTrace™ for geophysical applications. WHO SHOULD ATTEND: Geophysicists.

Day 1 : Getting started with 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: K-means method, pdf-based cluster analysis.

• Principal component analysis. • From electrofacies to rock-type: curves classification,

modeling, water saturation log computation.

Getting Hands on Log data edition and processing with EasyTrace™

9

DURATION: 3 days OBJECTIVE: To provide attendees with practical knowledge to deal with well data using EasyTrace™. 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.

Classes

Course Duration

Introduction to Reservoir Simulation using PumaFlow™ 4 days

Dual Medium Reservoir Simulation using FracaFlow™ 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 InterWell™ and EasyTrace™ 5 days

Getting Hands on Log data edition and processing with EasyTrace™ 3 days