Coring and Conventional Core Analysis
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Coring and Conventional Core Analysis Course
Introduction:
Participants to this “Coring and Conventional Core Analysis” training course are those who want to enrich their geological, geophysical, petrophysical and reservoir engineering knowledge and experience with some real rock data and knowing where this data is coming from and how they were interpreted in addition to the in-depth background on how to maximize the usage of such 3d real data in hand.
By choosing this Coring and Conventional Core Analysis training course, all attendees will differentiate between good and bad data, how to retrieve what they need from core reports, link their work and interpretation to solid conclusive material especially for facies, zonation, and petrophysical parameters.
Course Objectives:
By the end of the course, participants will be able to:
- Know the vital role of Coring
- What to get from core analysis?
- Maximize the usage of core data
- Understand and justify possible reservoir behavior ambiguities
- Apply interpreted core data to environment and facies
Who Should Attend?
Personnel who should attend are:
- Petrophysicists
- Geologists and Modeler
- Reservoir Engineers
- Geophysicists
Course Outlines:
Introduction to Coring: Why and How?
- What is Coring and Why?
- Coring Objectives, Procedure ad Used Tools
- Planning for Coring (when to take it or not?)
- Related Geo-hazards
- Handling and Cleaning the Core
- Why we need core analysis?
From Core Preservation to Analysis
- Core Preservation, Drying and Sampling
- Core Analysis, SWC, Type and Tool
- A Brief on SCAL
- Core from Field to Lab
- Core Gamma and Well Logs
- Getting the Maximum out of the Core
- Petrography, SEM and Photomicrograph
- Classics and Carbonate Cores in Oil Industry Reports
From Sedimentological Core Description to Full Interpretation
- Core Photo Types vs. Lithostratigraphy and Hydrocarbon Description
- Core Description
- Sedimentary Log
- Sedimentary Facies and Facies Association
- XRD, XRF, Ø types, K, Packing, etc.
- Fractures, Collapse, and Dissolution
Reservoir Parameters: Define and Apply
- Core Facies vs. E Logs
- SW, Vsh, etc.
- Reservoir Facies Anisotropy
- Clay Mineral Effect
- Archie Formula and OIP
- Secondary Recovery and Flow Units
- Fractures and Image Analysis
From Core Data Application to Reservoir Modeling
- From Core Interpretation to Mapping
- Thins Layers, Hidden Facies and Shoulder Effect Problems
- Cutoffs, From Core Data to Correlations
- Core Data Application to Fault Sealing Analysis
- FZI, Poor to Perm Charts and Upscaling
- From Core Interpretation to Static and Dynamic Modeling