ABSTRACT: Scott and Radomski

Erik Scott1 and Mark Radomski2
1Talisman Energy, 2445 Technology Forest Blvd., The Woodlands, Texas 77381 
2Talisman Energy, 888 3rd Street S.W., Calgary, Alberta, Canada T2P 5CS

Integration of Well, Core, and Seismic Data for 3D Depositional Environment and Reservoir Architecture Interpretation—Example from Offshore Vietnam

Global 3D Seismic Studies (GCSSEPM) (GRBCC, Room 310ABC)
Monday, September 21, 2015, 3:20 pm

Determining the distribution and uncertainty of rock properties in a reservoir is fundamental for building a robust 3D geological model for field development. Higher resolution 1D well and core information needs to be integrated with the lower resolution 3D seismic volumes with the appropriate appreciation of the scale, resolution and uncertainty of the data sets. Sub-centimeter scale resolution can be achieved from detailed core description with sedimentary structures, trace fossils, grain size distribution, bed thicknesses, bed boundary characteristics, and bed stacking patterns giving indications of sedimentary processes that can be combined to infer depositional environments in a 1D vertical arrangement. Utilizing analogs of modern day and ancient systems, models can be proposed for the 3D distribution of sedimentary body architecture and rock property distribution. These analog models serve as starting points that need to be modified to the local parameters developed from seismic data sets to build a field specific geological model. Understanding the resolution of the seismic data is necessary to determine what size and shape of the sedimentary bodies can be resolved to take the 1D depositional environments interpreted from core away from the well bore into 3D seismic space. Data from offshore Vietnam serves as an example of this integration of well, core and seismic data sets for understanding reservoir distribution.