Applied Petrophysics for Low Resistivity Thin– Bedded Formation

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Applied Petrophysics for Low Resistivity Thin– Bedded Formation Course
Introduction:
Thin bedded reservoirs are becoming more prevalent as exploration targets. However, assessing these formations is challenging due to the presence of complex and occasionally deceptive data.
This program offers comprehensive coverage of Petrophysical analysis in thinly bedded reservoirs and aims to equip participants with the skills to choose the most suitable interpretation techniques based on available data and the known characteristics of the formation.
The course focuses on a range of techniques for effectively addressing different types of thinly bedded reservoirs. This includes laminated sand shale sequences, thin layers of various clean sands, and thin beds found in carbonate formations.
Course Objectives:
IDENTIFY POSSIBLE HC POTENTIAL FOR THIN BEDDED SEQUENCES:
Learn the Petrophysical techniques in interpreting log data from low resistivity, thin-bedded sequences in order to identify possible HC sources.
CHARACTERIZE VARIOUS TYPES OF THINLY BEDDED RESERVOIRS:
Analyze various determining characteristics of thinly bedded reservoirs such as that in laminated sand shale sequences, in cleans sands, and in carbonates.
UNDERSTAND THE CHALLENGES IN DETECTING PAY ZONES & THEIR ACCURATE EVALUATION:
Identify the challenges and pitfalls in detecting pay zones in thin-bed reservoirs and their accurate evaluation.
APPLY THE RIGHT TECHNIQUES FOR EVALUATING THIN BED RESERVOIRS:
Identity in which logging techniques have been useful, what have been most successful, and the available technologies that can help better evaluate these reservoirs.
Who Should Attend?
- This program is developed for those who are working on interpreting log data from low resistivity, thin-bedded sequences
- This program is also for those who will benefit from understanding the analysis of Petrophysical data during exploration and development stage
Course Outlines:
THE THIN BED PROBLEM
- The Geology of Thin Beds – Laminated Shaly Sands And Other Types Of Thin Beds
- What the Petrophysicist Is Trying To Achieve When Assessing Thin Beds
- Uncertainty in Results And Reserves Estimates
- Log Measurements in Thin Beds
- Why Are The Resistivity Logs So Low?
CONVENTIONAL, HIGH RESOLUTION, AND IMAGE BASED TECHNIQUES
- Conventional Interpretation Techniques Using Shaly Sand SW Equations
- Introduction To Petrophysical Modelling
- High-Resolution Resistivity Modelling
- Image-Based Petrophysics
- Results Reporting In Thin Beds
ELECTRICAL ANISOTROPY AND HOW IT IS MEASURED
- Why Measure Vertical Resistivity?
- How Are Vertical Resistivities Measured?
- What to Do If No Tri-Axial Resistivity Measurements Have Been Made
TRI-AXIAL RESISTIVITY INTERPRETATION
- Different Interpretation Techniques Available Using Horizontal and Vertical Resistivities
- Laminated Shaly Sand Analysis (LSSA) For Interpreting Horizontal And Vertical Resistivity
- Uncertainty Revisited And Why LSSA Has Low Uncertainty
ANISOTROPIC FORMATIONS AND RESERVOIR MODELING
- Different Types of Petrophysical Modelling
- Low-Resolution 3dmodelling
SATURATION HEIGHT FUNCTIONS FOR THIN BEDS
- Building Saturation Height Functions
- Saturation Height Functions in Thin Beds
- Using NMR Results with Capillary Pressure Data In Thin Beds
- Applying Saturation Height Functions In Multi-Pore Systems
- Review of All Available Techniques and Selection Criteria for Their Use