Course Description
This course is designed to cover the basics of Carbonate Reservoir Description and more advanced notions of Reservoir Characterisation. participants will be introduced to the basic concepts of sedimentology, diagenesis, pore geometry, and sequence stratigraphy and their implications on reservoir
characterisation
Course Objectives
·
Understanding the integration between static and dynamic data in a coherent and consistent manner
·
Characterising the reservoir rock types
·
Building a geological framework with a zonation scheme
·
Understanding how to integrate seismic and faults in the reservoir framework
·
Using deterministic and stochastic algorithms to propagate petrophysical properties in three-dimensions
·
Learning the process of ranking
realisations and perform averaging and upscaling of properties
Who Should Attend?
·
Geophysicists
·
Geologists
·
Engineers
·
Support technicians who are interested in using a new workflow to look at fractures
·
Shale play
Program Schedule
DAY 1
·
Fracture mechanics
·
Data collection
·
Analysis of fracture orientations
·
Scaling relationships
·
Analysis of fracture spacing
·
Geoscience Aspects
·
Petrophysical & Seismic Aspects
DAY 2
·
Fault damage zones
·
Styles of fault propagation
·
Interaction and linkage in fault zones
·
Complex fracture networks
·
Characterising fracture networks
·
Fault reactivation
DAY 3
·
Fold/fracture relationships
·
Mechanical stratigraphy
·
Rock Fabric
·
Rock-Fluid Interaction
·
Brecciated carbonate rocks
·
Stylolites in carbonate rocks
·
Fault sealing and fluid flow
·
Comparison between oil fields and exposed analogues
DAY 4
·
Fractured reservoir modelling
·
Reservoir models
·
Economics and risking
·
Organizational structure
·
Lab Data
·
Assessment and evaluation
DAY 5
·
Flow Units
·
Predition of reservoir rock types in uncored wells
·
3D modelling
·
Ranking multiple realisations using streamlines
·
Upscaling techniques
