COURSE OVERVIEW

 

This practical and highly-interactive course includes various practical sessions and exercises. Theory learnt will be applied using our state-of-the-art simulators. 

 

The main objective of this course is to provide E&P professionals with the opportunity to develop hands-on experience of various seismic interpretation techniques using the Petrel software package. The course will cover the essential geological and geophysical information necessary to visualize and interpret seismic data. Participants of the course will gain a solid understanding of the applications and role of the seismic interpreter in studies that involve post-stack seismic attributes, AVO, seismic sequence stratigraphy, seismic geomorphology, 4D time-lapse seismic, and multidisciplinary integration. 

 

A significant percentage of the course is dedicated to reinforcement and advancement of interpretation techniques using practical exercises – both on the Petrel software and by hand. This will guide the participants in the understanding that the integration of all available data into the seismic model will add value in the needed coherent and successful seismic predictions that result from an interpretation. 

 

 

Further, this course will also discuss the seismic functionality in Petrel workflow tools; the random intersections, generating surface and variogram from attribute maps and importing check shots; the correct sonic log and establishing time – depth relation; generating wavelets and making synthetic seismogram; comparing seismogram with real well seismic; the seismic data interpretation using Petrel software; the applications, importing well seismic data, SEG-Y file parameters, well to seismic tie, seismic – data visualization and seismic data viewing; the advanced quantitative seismic interpretation and Petrel quantitative interpretation; and the synthetics generation, well to seismic matching and rock physics. 

 

 

During this interactive course, participants will learn the Petrel advance geophysics, Petrel quantitative interpretation, accurate and comprehensive quantitative interpretation and direct hydrocarbon indicators (DHI) – fractured; the seismic attributes, spectral attributes, relative acoustic impedance supervised classification, spectral decomposition, reservoir thickness estimate and spectral attributes; the shear wave techniques, quantitative interpretation for inversion and simulation and contributions of seismic in Petrel reservoir modelling; the 3D structural modeling, 3D property modeling, facies modeling, and fracture modeling volume calculations; the data analysis and plotting; the Petrel user interface, visualization and statistics; importing well seismic data, data viewports, seismic data viewing and well correlation; the well templates well tops – flattening and interactive facies interpretation; and the seismic interpretation workflow, mapping, plotting and creating maps.