| Why Choose This Training Course? By end of the course you will learn; • The principles of effective field evaluation for development studies, ranging from appraisal to engineered recovery operations • The controls that geological heterogeneities exert on subsurface fluid flow and how an understanding of reservoir characteristics will improve the reliability of geological and reservoir engineering studies • The importance of effective data gathering • The requirements for all static and dynamic reservoir data to be integrated into a model How will this Training Course be presented? The course will not only be presented by showing and interpreting the material in detail, but also the participants will work together using a real data to apply all the workflow and to project their previous knowledge and experience onto the course, they also encouraged to bring their own data so that real working examples can be reviewed and interpreted. Who is this Training Course for? This course is designed for all Oil Industry Technical Professionals, which will cover from fundamental theoretical background to high-level real work information, techniques and workshop. This training course is suitable to a wide range of professionals but will greatly benefit:  Geo-Modelers.  Production engineers  Pore pressure specialist  Petrophysicists.  Seismic Interpreters.  Development Geologists.  Reservoir Engineers.  Well site geologists.  Team Leaders & Managers. Detailed Agenda  Module 1: Field development o Introduction; duties o Field case studies o Basic rock properties and special core analysis o Fluid properties o Pressure and pressure analysis  Module 2: Development geological techniques  Coring and core description  Conventional subsurface structure and reservoir mapping  Well correlation  Basic volumetrics  Basic reserves evaluation  Horizontal wells  Module 3: Sandstone and Carbonate Reservoirs  Clastic reservoir modelling  Aeolian, fluvial and deltaic reservoirs  Coastal, shallow marine and fan  Clastic diagenesis  Carbonate reservoirs (focus to be determined based on client interests)  Fractured reservoirs  Module 4: Integrated reservoir modelling  Introduction to reservoir geomodelling - best practices and approaches  Subsurface uncertainty evaluation  Module 5: Basic and Principles of Well Correlation  General Log Measurement Terminology  Electric log correlation procedures and guide line.  Electrical log correlation in vertical wells o Log correlation plan o Basic concepts in electric log correlation o Faults Vs variation in stratigraphy  Electrical log correlation in – directional drilled wells o Log correlation plan correlation of vertical and directional drilled wells  MD, TVDss, TVD, TVT and TST terminologies.  Module 6: Well Correlation Uncertainties  Unconformity surfaces types.  Different kinds of faults in different tectonic regimes.  Hiatus and well correlation  Normal faults and Reverse faults determination from well logs.  Module 7: Well Correlation Techniques  Sequence stratigraphy principles and application in well correlation.  Chronostratigraphy vs lithostratigraphy.  Concepts of petroleum geology, structural regimes.  Module 8: From Well Correlation to Seismic Tie  Seismic stratigraphy.  Seismic correlation using reflectivity for unknown areas.  Seismic to well tie and wavelet correlation.  Integration of geophysical data in subsurface mapping  Module 9: Lithofacies analysis using Different Tools  Reservoir delineation from seismic inversion tools.  Lithology volumes from seismic inversion.  Lithology discrimination using neural network.  Module 10: Geological Cross Sections.  Structural and stratigraphic correlation and cross sections.  Hydrocarbon basins/plays and how to map in regional scale.  Geo-Seismic cross sections.  Module 11: Subsurface Mapping  Iso-pach and Iso Core maps.  Risk Assessment and Prospect ranking using different subsurface maps.  Common Risk Segment Maps and Combined Common Risk Segment Maps (CRS & CCRS) and how to construct these maps.  Module 12: Well Logging and Oil Exploration  Open hole wireline logging.  History;  Basic tool types and their responses  Basic interpretation of lithology,  porosity and water saturation  Clay corrections Data analysis.  Module 12: Volumetric Calculations based on Correlation.  Chance of success maps (COS) and risked hydrocarbon in place.  2D Hydrocarbon In-Place calculations using structural contour maps.  2D Reserve Calculations and recovery factor for different hydrocarbon drive mechanisms. Note: The course will not only be presented by showing and interpreting the material in detail, but also the participants will work together using a real data to apply all the workflow and to project their previous knowledge and experience onto the course, they also encouraged to bring their own data so that real working examples can be reviewed and interpreted. |