Integrated Methods for Deep-Water Reservoir Characterization
By: Jon Rotzien
Dr Jon R. Rotzien
(Basin Dynamics, LLC, Houston, TX, United States)
3 - 6 May 2022:
4:00PM - 9:00PM CEST
5 hours/day
Geology – Stratigraphy
The EAGE Interactive online short courses bring carefully selected courses of experienced instructors from industry and academia online to give participants the possibility to follow the latest education in geoscience and engineering remotely. The courses are designed to be easily digested over the course of two or three days. Participants will have the possibility to interact live with the instructor and ask questions.
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Deep-water depositional systems form some of the largest petroleum reservoirs on Earth and represent the frontier of oil and gas exploration. However, deep-water depositional systems remain the least well understood because sediment gravity flows, including turbidity currents and hybrid and debris flows, are both infrequent and difficult to predict and monitor, setting them apart from sediment transport processes occurring on mountain tops and shallow marine settings. Therefore, modern seismic data and, in particular, deep-water outcrops provide prime sources of stratigraphic data used to risk drilling targets and build reservoir models at every phase in the upstream exploration and production process. This course focuses on sub-bed-scale and field-scale architectural elements in deep-water depositional systems and how they affect the main risks in deep-water E&P across the value chain: reservoir presence, deliverability, seal and trap. The course has three main themes:
The impact of deep-water reservoir architecture on field success will be investigated through modeling theory, to derive strategies for optimal outcomes over a range of uncertainty. Case studies will be used to illustrate each topic and determine appealing workflows. This course will alternate between inclusive lectures, hands-on technical demonstrations, and collaborative exercises involving practical application of cores, outcrops, logs, and seismic data. The course starts with an overview of how sediment is transported and deposited from shelf to bathyal depths and focuses on the broad range of sedimentary processes and depositional environments. Individual and team exercises involving core and outcrop samples allow participants to describe samples and interpret their mechanism of deposition and their range of possible depositional environments. Next, a deeper dive into depositional environments illustrates the types of facies, as well as depositional and stratigraphic architecture, likely to be found along the deep-water depositional system from submarine canyon to basin plain. Collaborative exercises using core, outcrop, and seismic examples highlight the range of deep-water depositional environments and their effect on reservoir architecture and development. The skills of core description and integration, reservoir characterization, and sequence stratigraphy are emphasized. Core-log-seismic exercises will show modern techniques on how to predict variations in reservoir architecture in deep-water depositional systems. This course will conclude with a discussion summarizing modern advancements in the prediction of sedimentary deposits, facies, and reservoir development in a variety of different settings.
1. Introduction to marine depositional systems with a focus on deep-water depositional systems
2. Reservoir prediction: Transport and sedimentation processes of sediment gravity flows
3. Basic building blocks of clastic petroleum reservoirs: The range and variability of deep-water sedimentation units
4. Source-to-sink concepts and impact on reservoir quality
5. The five main deep-water depositional environments according to 2D and 3D seismic, outcrop, core, and log data
6. Scales of petroleum reservoir heterogeneity: Architectural elements
7. Active margins vs. passive margins: Deep-water sedimentary basins and their facies models
8. Large-scale drivers of continental margin sedimentation and application of sequence stratigraphic methods to exploration and appraisal
Participants should have knowledge of basic reservoir and exploration and development concepts, as well as experience with common geological, geophysical and engineering data.