Seismic Geomechanics: How to Build and Calibrate Geomechanical Models using 3D and 4D Seismic Data

By: Jörg Herwanger



Instructor

Dr Jörg Herwanger
(MP Geomechanics)

Duration

23–24 November 2021:
9:00AM-1:00PM CET
4 hours/day

Disciplines

Geomechanics, Petrophysics, Cross Discipline

Level

Foundation

Language

English

EurGeol

4 CPD points





Course Format

This course is part of the EAGE Education Tours (EET), the flagship education programme of the Association. EET courses are specifically designed to bring members the latest developments in geoscience and engineering through experienced instructors from industry and academia. In 2020 we are proud to introduce EET courses that can be attended remotely over two half-day sessions. Participants will have the possibility to interact live with the instructor and ask questions. EET courses are supported by the EAGE Education Fund for the benefit of members, who can register for special discounted fees.

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Course Description

Three-dimensional geomechanical models are becoming more frequently used to assess the state of stress inside the Earth. Knowledge of the stress-state in a reservoir and the surrounding rock allows assessing the risk of reservoir compaction, wellbore failure, sanding, breach of seal integrity, fault re-activation and allows the design of mitigation for these issues. Three-dimensional seismic data and inversion models can be used in building geomechanical models and time-lapse (4D) seismic data provide a means of calibrating the dynamic behavior of reservoir geomechanical models. The purpose of this course is to provide an overview of currently available workflows to build and run calibrated reservoir geomechanical models maximizing the use of 3D and 4D seismic data. Rock-physics, relating the state of stress in the Earth and the propagation velocity of seismic waves, forms the link between seismic observations and the geomechanical model, and this link will be discussed both from experimental data and from a theoretical viewpoint. Attendees will learn how a combination of 3D geomechanical models, coupled to flow models, built and calibrated with 3D and 4D seismic data help in creating a deep understanding of the reservoir depletion processes and the state of stress in the reservoir and surrounding rock.



Course Objectives

The purpose of this course is to:
  • Provide an overview over currently available workflows to build, run and calibrate reservoir geomechanical models maximizing the use of 3D and 4D seismic data;
  • Apply the understanding gained from running such workflows to field development and reservoir management;
  • Understand the limitations of current workflows and techniques and give a glimpse of the road ahead.


Course Outline

The course addresses the following issues:

  • Field observations of geomechanically induced time-lapse seismic signals. Where do they occur and why?
  • Building a 3D geomechanical model. Demonstrating a seismic-to simulation workflow, including building a framework model to surface and property population from seismically derived properties.
  • Running coupled modeling of a reservoir simulation model and a geomechanical model. Non-linear stress-strain relationship, reservoir compaction, failure models, stress and strain tensors.
  • Rock-physics for elastic and inelastic deformation. Velocity-stress relationship for elastic and inelastic deformation. Velocity during loading and unloading. Stress-induced velocity anisotropy.
  • Time-lapse seismic observations. Time-lapse time-shifts, AVO attributes, shear-wave splitting.
  • Case-study of integrating flow model, geomechanical model and time-lapse observations.

Prior to the course, participants will receive the link to the e-book of the course.

Click here to visit the e-book website to get more details of the content of the book!



Participants' Profile

The integrated nature of the subject and approach makes this course appealing to practitioners and researchers from a wide range of subsurface disciplines, ranging from geophysics, geomechanics, geomodelling, geology, rock physics and reservoir engineering. Practising geoscientists and engineers will appreciate the inter-disciplinary approach to addressing reservoir management issues and should be able to use ideas and approaches taught in this course in their day-to-day work. The course draws heavily on field observations and examples, while limiting the use of mathematical developments. This makes the course appealing to a wide cross-section of geoscientists and engineers that are interested in the inter-related nature of the subsurface disciplines. It should also be appealing to managers of cross-disciplinary subsurface teams, increasing the appreciation of the complexity of the subsurface workflows that his or her team needs to address.



Prerequisites

This course is aimed at geoscientists and engineers with an interest in integration between the different subsurface disciplines. The course presents both currently available seismic-to-simulation techniques. The course has an emphasis on making the physics behind the presented techniques accessible and clear and will appeal to curious and inquisitive people. This course is also suited for Master’s and PhD students as the course (material) is designed in such a way that the principles of geomechanics become clear. Geomechanics is still a relatively new discipline in the oilfield environment and is not taught as part of most university Geoscience-programs. Therefore a lot of graphic examples to aid intuitive understanding are included in the course material.



About the Instructor

Jörg Herwanger

Jörg Herwanger is a Director at MPGeomechanics, a geomechanics consulting and software company he co-founded in July 2016. His work combines experimental observations and the development of mathematical models and workflows in seismic, rock physics and reservoir geomechanics. Working closely with clients and his team, he carries out 3D and 4D geomechanical projects, integrating 1D geomechanical models, seismic inversion methods, rock physics and pore pressure predictions into reservoir flow and geomechanical models. Previous companies he worked for included Ikon Science and Schlumberger. Before working in the upstream oil and gas industry, Jörg's interest was in the development and computer implementation of tomographic methods to determine anisotropic electrical properties from observed crosswell data. He combined these newly developed techniques with anisotropic velocity tomography to detect and evaluate fractures. Jörg is a member of EAGE, SPE and SEG. He served as an EAGE Distinguished Lecturer from 2007-2009, EAGE Education Tour (EET-5) Lecturer in 2011-2012, and EAGE Education Officer on the EAGE Board from 2016-2020. For the EET-5, Jörg wrote the eponymous book on "Seismic Geomechanics". Jörg holds a Diploma degree from Technische Universitat Clausthal, Germany and a PhD from Imperial College, London, U.K., both in Geophysics.





EAGE supports its members and the Geoscience community in general by offering a 35% discount on the regular prices for our Interactive online short courses during these difficult times.

Registration Fees

Registered and Paid Until 15 November 2021 From 16 November 2021
Education Package1 Credit 1 Credit
EAGE Member Price €75 €85
Non-Member Price €150 €160
*Non-Member price for this product does include EAGE Membership




Cancellation and Changes Policy

Registration fees will be refunded as follows:
  • Cancellation received before 9 November 2021: Refund will be processed after the event had ended. Amount will minus an administration fee of €35 per person.
  • Cancellation received on or after 9 November 2021: No refund will be made.
  • Transferring of your registration to another participant will cost €35, as administration fee, plus any differences in delegate types, where applicable (for instance when changing a registration from a member to a non-member).
  • For an overview of all EAGE Registration Terms and Conditions please click here to download.