Advanced LOG-LOGGING Interpretation Technology
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Advanced LOG-LOGGING Interpretation Technology Course
Introduction:
This comprehensive course consists of three parts, each focusing on log interpretation and quality control.
Part #1: Basic Logging Methods and Formation Evaluation introduces attendees to fundamental log analysis techniques, borehole data acquisition methods, and the problem-solving skills necessary for identifying and exploiting reserves.
Part #2: Intermediate Formation Evaluation builds upon the foundational knowledge by teaching attendees how to integrate formation evaluation data with core, seismic, geology, and production data. The discussion extends to dip and image logs, as well as MDT and RFT tools and their interpretations.
Part #3: Advanced Wellbore Analysis and Petrophysical Integration delves into reservoir characterization processes. Attendees learn how pore geometry, petrophysical rock types, and flow units are utilized to predict reservoir performance and ultimate recovery. Topics covered include rock types, formation damage, capillary pressure, saturation distributions, and relative permeability concepts. Additionally, attendees gain the skills to perform scanning reservoir analysis based on rock types and flow units using petrophysical data.
By completing all three parts of this course, participants will enhance their expertise in log interpretation and quality control, equipping them with the knowledge and skills needed to make informed decisions and optimize reservoir performance.
Course Objectives:
Prerequisites: Basic knowledge of petrophysics and reservoir geology.
Who Should Attend?
All levels of geoscientists and petroleum engineers
Course Outlines:
Topics covered
Part 1
- Logging Operations. Fundamental Mineralogy and Brine Properties. Quick-Look Deterministic Formation Evaluation. Resistivity and Porosity. Interpretation Methods.
Part 2
- Deterministic Log Analysis Methods for Reservoir Characterization Studies. Shale and Clay Analysis. Dip / Image Logs and Mechanical Rock Properties. Reservoir Fluid Gradients and Pressures. Probabilistic Formation Evaluation and Production Logs.