Sequence Stratigraphy of Siliciclastic Reservoirs: Advanced Application for Modeling & Prediction Optimization
| Code | Date | Time | Duration | Location | Currency | Team of 10 Per Person | Team of 7 Per Person | Early Bird Fee Per Person | Normal Fee Per Person |
|---|---|---|---|---|---|---|---|---|---|
| PEA-SSG26 | 13 - 19 Jul 2026 | 6 PM Indian Time |
4 Hours Per Day
|
Zoom Online
|
USD
|
2000
|
2250
|
2500
|
2850
|
The classes will be conducted online via Zoom from Monday to Sunday, for 4 hours per day excluding breaks.
Boost your team's skills and your budget! Enjoy group discounts for collaborative learning. Send an inquiry to info@peassociations.com.
Sequence Stratigraphy of Siliciclastic Reservoirs: Advanced Application for Modeling & Prediction Optimization
This advanced course provides a detailed understanding of sequence stratigraphy principles and their application in siliciclastic reservoir characterization. Participants will learn to use stratigraphic concepts for building realistic geological models, improving prediction accuracy, and optimizing reservoir development strategies.
Description
The Sequence Stratigraphy of Siliciclastic Reservoirs: Advanced Application for Modeling & Prediction Optimization course focuses on integrating geological, geophysical, and petrophysical data to enhance reservoir understanding and performance. Sequence stratigraphy offers a powerful framework for interpreting sedimentary basin evolution, predicting facies distribution, and identifying stratigraphic traps.
Participants will explore advanced techniques for interpreting depositional sequences, systems tracts, and key stratigraphic surfaces using seismic, well log, and core data. The course also demonstrates how stratigraphic analysis supports static and dynamic reservoir modeling, fluid flow prediction, and field development planning.
Case studies from diverse depositional settings highlight the practical application of sequence stratigraphy in exploration, appraisal, and production optimization.
Siliciclastic reservoirs often display complex facies variations and heterogeneities that significantly impact hydrocarbon recovery. Sequence stratigraphy provides a predictive toolset to understand and model these complexities.
This course bridges the gap between theoretical concepts and practical implementation by demonstrating how sequence stratigraphic interpretation enhances reservoir quality assessment, continuity prediction, and volumetric estimation. It equips participants with the analytical and interpretive skills to integrate multi-disciplinary data for better reservoir prediction and modeling.
Understand sequence stratigraphy concepts and their relevance to siliciclastic reservoirs.
Identify and interpret key stratigraphic surfaces and depositional sequences.
Correlate well log and seismic data within a stratigraphic framework.
Predict reservoir distribution and quality using stratigraphic models.
Apply sequence stratigraphy to reservoir modeling and simulation workflows.
Integrate geological, geophysical, and petrophysical data for predictive analysis.
Optimize field development strategies based on stratigraphic architecture.
The course combines interactive lectures, seismic and log interpretation exercises, and case-based learning. Participants will engage in practical workflows using real datasets to build stratigraphic frameworks, correlate depositional units, and develop predictive models. Discussions and collaborative problem-solving ensure the direct transfer of knowledge to workplace applications.
Improved reservoir modeling and prediction accuracy.
Enhanced exploration and development planning through stratigraphic analysis.
Reduced uncertainty in reservoir characterization and production forecasting.
Strengthened multidisciplinary integration between geology, geophysics, and engineering.
Better-informed investment and field development decisions.
Develop advanced interpretation skills in sequence stratigraphy.
Gain hands-on experience integrating seismic, log, and core data.
Learn practical methods for building stratigraphic and reservoir models.
Enhance analytical thinking for reservoir prediction and optimization.
Strengthen professional expertise and technical credibility in reservoir geology.
Geologists and Reservoir Geologists
Geophysicists and Petrophysicists
Reservoir Engineers and Modelers
Exploration and Development Team Leaders
Sequence stratigraphy concepts, applications and uses
The concept of lithotypes, depositional packages and genetic elements
The complexity of genetic elements identification and reservoir architecture
Sediment Supply Vs. dispersal
Key principles of sequence stratigraphy
Tectonics and eustacy control the amount of accommodation space for sediment accumulation
Depositional sequence architecture – terminology
Chronological chronostratigraphic correlation
Sequence boundaries definitions and types
Key criteria for defining the sequence boundaries in cores and logs
Systems tract definition and subsurface diagnosis FSST and LST
Systems tract definition and subsurface diagnosis TST and HST
Correlation guidelines and considerations for sequence stratigraphic interpretation
Data analysis and evaluation for optimum sequence stratigraphic interpretation
Parasequence stacking patterns recognition and interpretation
Parasequence heterogeneity in systems tract and architecture considerations
Candidate sequence boundaries – recognition and interpretation
Parasequence correlation recognition and interpretation practice example
Depositional stacking pattern analysis (practical example)
Difficulties of high-resolution sequence stratigraphy
Sequence stratigraphy case study
Heterogeneity, permeability and reservoir architecture within the sequence stratigraphy consideration
Candidate sequence boundaries – recognition and interpretation
Parasequence correlation recognition and interpretation practice example
Depositional stacking pattern analysis (practical example)
Difficulties of high-resolution sequence stratigraphy
Sequence stratigraphy case study
Heterogeneity, permeability and reservoir architecture within the sequence stratigraphy consideration
On successful completion of this training course, PEA Certificate will be awarded to the delegates.
The instructor for the Sequence Stratigraphy of Siliciclastic Reservoirs course brings over 15 years of specialized expertise as a clastic and carbonate sedimentologist. He has held key roles including core analyst and reservoir geologist at Corex in Egypt, Libya, and the UK; consultant specialist with Schlumberger in Saudi Arabia; and reservoir geologist at Core Laboratories in Abu Dhabi, where he also served as department head of the petrology and sedimentology team in exploration. Additionally, he worked as an on-loan reservoir quality specialist at BP in Egypt and has delivered in-person courses on sedimentology, sequence stratigraphy, and reservoir quality prediction to audiences in more than 20 locations worldwide.
Frequently Asked Questions
All course bookings made through PEA are strictly non-refundable. By registering for a course, you acknowledge and accept that all fees are payable in full and are not subject to refund under any circumstances, including changes in personal or professional commitments or partial attendance.
PEA reserves the right to make reasonable adjustments to course content, trainers, or schedules where necessary, without entitling delegates to a refund. Comprehensive details of each course — including objectives, target audience, and content — are clearly outlined before enrolment, and it is the responsibility of the delegate to ensure the course's suitability prior to booking.
For any inquiries related to cancellations or bookings, please contact our support team, who will be happy to assist you.
