Conceptual Design and Workflow
- Reservoir envelope: top and base structure
- Internal framework: correlation scheme
- Reservoir compartments: fault geometry
- Reservoir architecture: facies model
- Petrophysical property distribution
- Volumetric Assessment
When planning a reservoir modeling project, the ultimate purpose of the model must be defined. To this end the geological model should address all of the above points. On the first day, participants will learn about the retention of relevant fine-scale detail through upscaling. The process of building a 3D reservoir model will always follow the same general workflow, regardless of the tools available to the modelling team. Each of the steps will be outlined in the course with an appreciation of the required input data, associated uncertainties, and likely deliverable and its use. The database used for the exercises will be from a real field that includes two different clastic reservoir types with different modeling challenges.
- Depth conversion uncertainty
- Model surface selection and quality control
- Fault modelling and compartments
- Stratigraphy and correlation
- Grid construction
In volumetric models the greatest uncertainty is usually the gross rock volume at the top structure map and the hydrocarbon contact. Depth conversion, where well data can be sparse, leads to much of this uncertainty. Structural models that result in over complexity, much of which cannot be modelled, may drive seismic interpretation. Participants will learn how to decide what structural elements to include, which can be a source of much debate. Likewise too much well-to-well correlation can over science a model especially when still in development and drilling surprises are common, so it will be covered on this day as well.
- Depositional models and facies analysis
- Core-log integration
- Basic statistics
- Objects and indicators
- Seismic conditioning
- Facies modelling
Participants will learn about the different clastic and carbonate depositional environments and how to best characterize them for subsequent modelling. The dependence on statistics will be introduced as a way to demonstrate the different methods of facies modelling available.
Property Modeling in 3D
- Basic petrophysics
- Rock typing
- More basic statistics
- Porosity models
- Saturation models
- Permeability models
Running through the course will be the theme of petrophysics, always calibrated to the geology, as a way to distribute reservoir properties. Participants will be shown simple rock typing methods that are readily applicable to 3D models. Particular attention will be paid to saturation height methods that accurately distribute fluids through the model.
Uncertainty and Upscaling
- Geological model analysis
- Hydrocarbon volumes initially in place
- Drainable volumes
- Simulation grid construction
- Property upscaling
- Multiple scenarios, realizations, and ranking
What makes a good static model will be discussed. The methods of interrogating and analyzing the results described before addressing the thorny question of upscaling for dynamic simulation will also be covered.
This course is designed primarily for geologists, geophysicists and reservoir engineers involved in subsurface reservoir characterization and who wish to know how to derive geologically robust framework models and how to populate them with meaningful reservoir properties. Attendees should include Geologists, Geophysicists, Petrophysicists, Reservoir Engineers, Drilling Engineers, and Seismic Interpreters.
Students are expected to have a clear understanding of how to use the Petrel software. It is suggested that a Petrel Fundamentals course has been taken, although this is not mandatory.
Some understanding of the principles of Geology and Log Analysis.
Bandung is the capital of West Java province in Indonesia. Located 768 m (2,520 ft) above sea level, Bandung has relatively year-around cooler temperature than most other Indonesian cities
Bandung is renowned for its large stock of Dutch colonial architecture; most notably the tropical Art Deco architectural style. The modern and native architectural blending was followed by several Dutch architects that have shaped the city landmarks. In the 1930s, Bandung was known also as the city of architecture laboratory because of many Dutch architects made some experiments with new architectural designs.
Bandung has served for popular weekend-break destination for people living in Jakarta for many reasons. The cooler climate of highland plantation area, the varieties of food, the cheaper fashion shops located in factory outlets and distros, golf courses, and the friendliness of local people have become the main attraction of the city.
Bandung Husein Sastranegara International Airport serves direct flights to Batam, Surabaya, Yogyakarta, Denpasar, Palembang and Padang and also international services from Kuala Lumpur and Singapore Changi Airport. The airport is located nearby the Dirgantara aerospace complex and Dirgantara Fairground.
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