Short Course Catalogue 2016/17

Short Course Catalogue ’16/’17

WWW.LEARNINGGEOSCIENCE.ORG

Welcome Words On behalf of the Board of the European Association of Geoscientists and Engineers (EAGE), please allow me to introduce the EAGE Short Course Catalogue in which you will find a complete overview of EAGE Short Courses. EAGE offers 91 short courses, most of them multidisciplinary, with durations ranging from one to five days. The EAGE short courses are usually focused on topics that are not offered by commercial organizations and based on state-ofthe-art methods and techniques. Our courses are designed to increase knowledge and awareness of new methodologies for geoscience specialists. These short courses do not only reflect the latest scientific developments in geosciences but also demonstrate applications of these theories to real-life problems. EAGE uses the knowledge and expertise of its members and network to select course instructors who are experienced and acknowledged industry professionals and academics. Instructor biographies are available at www.learninggeoscience.org. EAGE focuses on the delivery of short courses to the open public and organizes its courses in different formats worldwide: •  EAGE Education Days •  EAGE Education Tours •  Short Courses at EAGE conferences and workshops •  Standalone Short Courses •  In-house Courses * As an additional service, EAGE organizes some of the short courses in-house based on instructor’s availability. Companies or organizations may request an EAGE Short Course to be delivered at their premises as a private course, which may be tailored according to the learning needs of the requester. These courses are marked with an * for your convenience in this catalogue. To emphasize the quality of EAGE educational a ­ ctivities, I am delighted to inform you that in 2013 EAGE became the first official Continuing Professional Development (CPD) Provider of the ‘European Geologist’ title, which is a professional accreditation established by the European Federation of Geologists (EFG). For more information about this accreditation system and corresponding EAGE learning activities, please visit www.eage.org and www.learninggeoscience.org. I strongly encourage you to participate in the short courses organized by EAGE. I am sure that you will be positively surprised by the high quality and professionalism of the courses. Wishing you a great learning experience!

Paul Sava Education Officer (EAGE Board)

2

About EAGE and Learning Geoscience EAGE is a professional association for geoscientists and engineers. Founded in 1951, it is a non-profit organization with a worldwide membership providing a global network of commercial and academic professionals. The association is truly multi-disciplinary and international in form and pursuits. EAGE believes that it is vitally important for all geoscientists to keep up-to-date on the latest developments in their field and in recent years has significantly increased its educational programmes, which have attracted excellent attendance worldwide. Learning Geoscience, the Education portal of EAGE, delivers its short courses at multiple events worldwide. For example at the EAGE Annual Conference and other conferences, the EAGE Education Days, which are organized globally, during the EAGE Education Tour (EET) and as stand-alone courses. All the short courses are up-to-date and include the latest technologies in the respective field.

Accreditation In 2013 EAGE became the first official Continuing Professional Development (CPD) Provider of the ‘European Geologist’ title, which is a professional accreditation established by the European Federation of Geologists (EFG). In order to obtain and maintain this title, the holder must provide a record of high-quality CPD activities, which include short courses such as the ones presented in this catalogue. For a summary of the provided points for EAGE Short Courses, please see the overview below. For more information about this accreditation system and corresponding EAGE learning activities please visit www.eage.org and www.learninggeoscience.org.

Activity type

Event type

Hours

CPD

Formal learning /

Short Course one-day

8

5 points

Short Course two-day

16

10 points

Short Course three-day

24

15 points

Short Course four-day

32

20 points

Short Course five-day

40

25 points

untested Formal learning / untested Formal learning / untested Formal learning / untested Formal learning / untested

Catalogue Structure This catalogue is designed to provide a clear overview of EAGE Short Courses. Most of the EAGE Short Courses are multidisciplinary. Each discipline is identified with a significant icon as shown on the bottom of the page. The courses are grouped based on the first discipline they fall under. The other applicable disciplines are shown as secondary disciplines. Let us say short course 1 has three disciplines: Geophysics, ­Geology,

EAGE Short Course Catalogue ’16-’17

Reservoir and Production Engineering. In this case, this course is grouped under Geophysics and the other applicable disciplines, Geology and Reservoir and Production Engineering, are shown as second and third disciplines. We hope that you will find the icons useful to recognize the specific courses you are interested in.

Geophysics

GEOLOGY

GEOPHYSICS

MINING

Short Course 1 * Instructor, Company Name

CROSS DISCIPLINE

DRILLING

RESERVOIR AND PRODUCTION NEAR SURFACE DRILLING GEOLOGY ENGINEERING

TRAINING AND DEVELOPMENT

PETROLEUM GEOCHEMISTRY GEOPHYSICS ENGINEERING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR PETROPHYSICS SURFACE

GEOCHEMISTRY

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

PETROPHYSICS GEOLOGY MINING

RESERVOIR OTHERAND PRODUCTION ENGINEERING

GEOLOGY

GEOPHYSICS

MINING

TRAINING AND MINING DEVELOPMENT

OTHER

OTHER RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Icons Throughout this Short Course Catalogue you will find some new icons amongst the Short Courses. EAGE is continually developing its portfolio and the new icons, which are explained below, will make it easier for you to follow the latest developments in the courses of EAGE.

This course is new in the EAGE portfolio. Even though all courses are updated frequently, courses with this icon have been thoroughly revised, extended to two days or include new topics. Watch a short video of this course online now! EAGE is posting e-lectures on social media on a regular basis. The lectures are accessible for everyone who is interested. For a full list, check our Learning Geoscience website or our EAGE YouTube channel.

In-house Courses Interested in one of our courses but it is not organized near your location? Request the course via our Learning Geoscience Website www.lg.eage.org or via e-mail education@eage.org as an in-house course! If your team has a special interest in one of our topics, we can also organize multiple courses at your location. Courses that can be organized at your company are marked with an * for your convenience. Benefits: Having an in-house course has a number of benefits to your organization; benefits that are both financial and practical: •  Lower cost: It is often more cost effective to have courses delivered at venues of your choice rather than you and your staff having to travel to another site. •  No need to worry about travel arrangements for your staff •  Customization of in-house courses. In-house courses can be customized to include examples, exercises and workshops specific to your company. In addition, special topics can be added to or deleted from the course curriculum to accommodate your individual preferences and training needs. Materials specific to your organization’s procedures and requirements may be included. •  Team building: The cost savings associated with in-house course usually mean that more of your staff can participate on a course, which in turn means that in-house courses can enjoy a positive atmosphere. In fact, engaging in training as a group and undertaking activities and discussions together can also serve as a team-building exercise, strengthening the bonds between your employees and improving morale. •  Refresh your team’s skills and boost their confidence •  Train a group of staff to the same level, using the same consistent techniques The combination of all of the above means that your organization can enjoy the maximum return on your training and development investment with EAGE’s In-House Courses.

This course is accompanied by a course book, which is also available in the Bookshop.

EAGE Short Course Catalogue ’16-’17

3

Table of Contents

GEOLOGY

GEOPHYSICS

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

MINING

TRAINING AND DEVELOPMENT

GEOPHYSICS

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY S DISCIPLINE

DRILLING GEOLOGY

AR ETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

TRAINING AND DEVELOPMENT

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

11

GEOLOGY

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING CROSS DISCIPLINE

MINING

Full-Waveform Inversion: Where are the Anisotropic 11 Parameters Hiding? (EET 10) Tariq Alkhalifah, KAUST TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

12

NEAR GEOLOGY SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

MINING

Land Seismic of New Technological Level * Anatoly Cherepovski, Sercel TRAINING AND DEVELOPMENT

GEOPHYSICS

GEOLOGY

MINING

TRAINING AND DEVELOPMENT

GEOPHYSICS

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

12

GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

MINING

Seismic Acquisition on Land from Yesterday to Tomorrow 13 Julien Meunier, CGG TRAINING AND DEVELOPMENT

GEOPHYSICS

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

MINING

A Comprehensive Overview of Seismic Data 13 Processing Steps * Piet Gerritsma, Gerritsma Geophysical Training and Consultancy TRAINING AND DEVELOPMENT

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

GEOCHEMISTRY

GEOLOGY

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

CROSS DISCIPLINE

MINING

RESERVOIR AND MINING PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

DRILLING

CROSS DISCIPLINE OTHER

DRILLING

NEAR SURFACE GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

Broadband Seismic: A Platform to Understand, Measure, Compare and Exploit the Options Available Today and Tomorrow * Andrew Long, PGS and Mazin Farouki, PGS TRAINING AND DEVELOPMENT

GEOPHYSICS

GEOPHYSICS

CROSS MINING DISCIPLINE

TRAINING AND DEVELOPMENT

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Seismic Fracture Characterization: Concepts and Practical Applications (EET 8) Enru Liu, ExxonMobil TRAINING AND DEVELOPMENT

GEOPHYSICS

NEAR OTHER SURFACE

CROSS MINING DISCIPLINE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

15

Seismic Surveillance for Reservoir Delivery (EET 6) * Olav Inge Barkved, Petoro AS TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

DRILLING

PETROLEUM GEOPHYSICS ENGINEERING

PETROLEUM ENGINEERING

GEOCHEMISTRY

PETROPHYSICS CROSS MINING DISCIPLINE

PETROPHYSICS

GEOLOGY

RESERVOIR AND DRILLING PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOCHEMISTRY DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

MINING

16

MINING

OTHER GEOLOGY

3D Seismic Attributes for Prospect Identification and Reservoir Characterization Kurt Marfurt, University of Oklahoma NEAR OTHER SURFACE

TRAINING AND DEVELOPMENT

GEOPHYSICS

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

16

OTHER

MINING

Fundamentals of Seismic Acquisition and Processing * Jeffrey D. Johnson, NExT/Schlumberger TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

MINING

17

Seismic Diffraction * 17 Evgeny Landa, OPERA – Applied Geophysical Research Group Tijmen Jan Moser, Moser Geophysical Services OTHER

TRAINING AND DEVELOPMENT

OTHER

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM GEOLOGY ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

14

GEOLOGY

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

NEAR OTHER SURFACE

CROSS DISCIPLINE

PETROLEUM ENGINEERING

DRILLING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY

TRAINING AND DEVELOPMENT

OTHER

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

GEOPHYSICS

PETROPHYSICS

MINING

4 NEAR SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Microseismic Monitoring in Oil and Gas Reservoirs * Leo Eisner, Institute of Rock Structure and Mechanics PETROPHYSICS TRAINING AND DEVELOPMENT

OTHERAND RESERVOIR PRODUCTION ENGINEERING

GEOCHEMISTRY

GEOLOGY

PETROPHYSICS GEOPHYSICS

RESERVOIR AND MINING PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

OTHER PETROLEUM ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

18

OTHER

Applications of Seismic Anisotropy in the Oil and Gas Industry (OTE 3) * Vladimir Grechka, Marathon Oil Corporation TRAINING AND DEVELOPMENT

GEOPHYSICS

18

OTHER

MINING

Beyond Conventional Seismic Imaging (OTE 1) * 19 Evgeny Landa, OPERA – Applied Geophysical R ­ esearch Group TRAINING AND DEVELOPMENT

GEOPHYSICS

OTHER

MINING

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION ENGINEERING

DRILLING

OTHER

Principles and Applications of Seismic Interferometry and 14 Ambient Noise Seismology in Hydrocarbon Exploration * Gerard Schuster, KAUST

PETROPHYSICS GEOPHYSICS

15

10

OTHER

An Introduction to Velocity Model Building * Ian Jones, ION Geophysical

GEOPHYSICS

The Benefit of Broadband Technology for Reservoir Characterization and Imaging - End and User Value * Cyrille Reiser, PGS

MINING

Applied AVO * Anthony Fogg, Seismic Image Processing

GEOPHYSICS

10

OTHER

CROSS DISCIPLINE

EOCHEMISTRY

ETROPHYSICS

Geophysics

Advanced Marine Seismic Acquisition Techniques * Mike Branston, WesternGeco

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

TRAINING AND DEVELOPMENT

NEAR SURFACE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

Broadband Technology Robert Soubaras, CGG

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING CROSS DISCIPLINE

NEAR SURFACE DRILLING GEOLOGY

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

SS RILLING DISCIPLINE

AR ROLEUM SURFACE EOCHEMISTRY NEERING

ETROPHYSICS

EOCHEMISTRY

ETROPHYSICS

SS DISCIPLINE

AR SURFACE EOCHEMISTRY

ETROPHYSICS

Integrated Seismic Acquisition and Processing Jack Bouska, Independent Consultant TRAINING AND DEVELOPMENT

GEOCHEMISTRY DRILLING

PETROPHYSICS PETROLEUM GEOLOGY ENGINEERING

DRILLING

GEOCHEMISTRY

PETROLEUM ENGINEERING

PETROPHYSICS

Overview of EM Methods with a Focus on the Multi-Transient Electromagnetic (MTEM) Method * Bruce Hobbs, PGS EM TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

TRAINING AND DEVELOPMENT

OTHER

RESERVOIR AND PRODUCTION ENGINEERING DRILLING

PETROLEUM CROSS DISCIPLINE GEOLOGY ENGINEERING

NEAR RESERVOIR SURFACEAND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

MINING

Reservoir Geophysics Bill Abriel, Chevron

PETROLEUM GEOCHEMISTRY GEOPHYSICS ENGINEERING

CROSS DISCIPLINE

PETROPHYSICS GEOLOGY MINING

GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND MINING DEVELOPMENT

21

GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

Reservoir Model Design: How to Build Good Reservoir Models 22 Mark Bentley, AGR PS Philip Ringrose, Statoil PETROPHYSICS TRAINING AND DEVELOPMENT

OTHERAND RESERVOIR PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS GEOPHYSICS

RESERVOIR AND MINING PRODUCTION ENGINEERING

TRAINING AND CROSS DISCIPLINE DEVELOPMENT

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

MINING

3D Tomography by Active and Passive Seismic Data * Aldo Vesnaver, Petroleum Institute TRAINING AND DEVELOPMENT

OTHER

NEAR SURFACE

GEOCHEMISTRY GEOLOGY

GEOPHYSICS GEOLOGY

GEOPHYSICS MINING

RESERVOIR PETROPHYSICS AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING RESERVOIR AND AND MINING DEVELOPMENT PRODUCTION ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE OTHER

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

TRAINING OTHER AND DEVELOPMENT

GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM PETROLEUM GEOPHYSICS ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS MINING

GEOLOGY GEOLOGY

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

OTHER

GEOCHEMISTRY

GEOLOGY

PETROPHYSICS DRILLING GEOPHYSICS

RESERVOIR AND GEOCHEMISTRY MINING PRODUCTION ENGINEERING

GEOPHYSICS GEOPHYSICS

GEOPHYSICS

EOCHEMISTRY

GEOLOGY

GEOPHYSICS

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

PETROPHYSICS OTHER

CROSS MINING DISCIPLINE

TRAINING GEOLOGYAND DEVELOPMENT

NEAR OTHER SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

Processing, Inversion and Reconstruction of Seismic Data Mauricio Sacchi, University of Alberta TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

MINING

25

Seismic Imaging and Velocity Model Building: A Review 25 of Techniques, Respective Merits and Limitations (EET 4) * Etienne Robein, ERT TRAINING AND DEVELOPMENT

GEOPHYSICS

OTHER

MINING

Seismic Multiple Removal Techniques: Past, Present and Future (EET 1) * Eric Verschuur, Delft University of Technology TRAINING AND DEVELOPMENT

GEOPHYSICS

26

OTHER

MINING

Seismic Sequence Stratigraphy * Klaus Fischer, Wintershall TRAINING AND DEVELOPMENT

GEOCHEMISTRY GEOPHYSICS

26

OTHER

GEOLOGY MINING

GEOPHYSICS

MINING

xplorational Rock Physics and Seismic Reservoir Prediction * 27 E Per Avseth, Tullow Oil Norge Tor Arne Johansen, University of Bergen OTHERAND RESERVOIR PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

OTHER

TRAINING AND DEVELOPMENT

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

GEOCHEMISTRY

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

NEAR DRILLING SURFACE

PETROLEUM GEOCHEMISTRY ENGINEERING

TRAINING AND DEVELOPMENT

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

PETROLEUM ENGINEERING

OTHERAND RESERVOIR PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

GEOLOGY

OTHER PETROLEUM ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

GEOPHYSICS

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

27

OTHER

MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND CROSS MINING DISCIPLINE DEVELOPMENT

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY

GEOLOGY

PETROPHYSICS

F ull-Waveform Inversion for High-Resolution Reservoir Characterization * Dries Gisolf, Delft University of Technology

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

28

OTHER

MINING

Migration, DMO and Velocity Model Building 28 Piet Gerritsma, Gerritsma Geophysical Training and Consultancy TRAINING AND DEVELOPMENT

OTHER

24

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

GEOCHEMISTRY GEOPHYSICS

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

GEOPHYSICS

NEAR OTHER SURFACE

TRAINING AND DEVELOPMENT

23

OTHER

DRILLING

DRILLING

PETROPHYSICS GEOLOGY

OTHER OTHER

MINING

OTHER GEOPHYSICS

Seismic Reservoir Characterization: An Earth Modeling Perspective (EET 2) * Philippe Doyen, CGG

23

MINING

GEOLOGY MINING

RESERVOIR OTHERAND PRODUCTION ENGINEERING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

5

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

MINING

MINING MINING

Geophysical Monitoring of CO2 Storage * Martin Landro, Norwegian University of Science and Technology PETROLEUM TRAINING AND ENGINEERING DEVELOPMENT

DRILLING GEOLOGY

DRILLING

A Short Course in Modern Seismic Inversion Techniques Nick Pillar, Canadian Overseas Petroleum Ltd TRAINING AND DEVELOPMENT

22

OTHER

OTHER

DRILLING DRILLING

MINING

Microseismicity – A Tool of Reservoir Characterization (OTE 2) Serge Shapiro, Freie Universitaet Berlin TRAINING AND DEVELOPMENT

GEOPHYSICS

MINING

NEAR SURFACE

NEAR NEARGEOLOGY SURFACE SURFACE

20

Time-Lapse Seismic: A Multidisciplinary Tool for Effective 21 Reservoir Management * Cedric Fayemendy, Statoil

CROSS DISCIPLINE

CROSS CROSSDISCIPLINE DISCIPLINE

RESERVOIR AND PRODUCTION ENGINEERING

MINING

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

MINING

DRILLING

24

20

OTHER

GEOPHYSICS

GEOPHYSICS

Geophysics Under Stress: Geomechanical Applications of Seismic and Borehole Acoustic Waves Colin Sayers, Schlumberger

MINING

NEAR SURFACE

GEOLOGY

AR ETROPHYSICS SURFACE

CROSS DISCIPLINE

EOCHEMISTRY

EOCHEMISTRY S DISCIPLINE

GEOPHYSICS

19

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

The Principles of Quantitative Acoustical Imaging * Dries Gisolf, Delft University of Technology

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

CROSS DISCIPLINE

EOCHEMISTRY

ETROPHYSICS

NEARGEOLOGY SURFACE

GEOPHYSICS

MINING

4D Seismic for Reservoir Management * Ian Jack, Independent Consultant TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY

GEOLOGY

PETROPHYSICS GEOPHYSICS

RESERVOIR AND MINING PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

DRILLING

PETROLEUM GEOPHYSICS ENGINEERING

GEOCHEMISTRY

PETROPHYSICS MINING

TRAINING AND DEVELOPMENT

GEOCHEMISTRY

PETROLEUM NGINEERING

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOPHYSICS

NEAR RESERVOIR SURFACEAND PRODUCTION ENGINEERING

CROSS DRILLING GEOPHYSICS DISCIPLINE

OTHER PETROPHYSICS PETROLEUM ENGINEERING

PETROLEUM NEAR TRAINING SURFACE AND ENGINEERING DEVELOPMENT

CROSS DISCIPLINE GEOPHYSICS GEOPHYSICS

GEOCHEMISTRY DRILLING MINING

DRILLING MINING MINING

GEOCHEMISTRY GEOLOGY

RESERVOIR PETROPHYSICS AND PRODUCTION ENGINEERING

GEOCHEMISTRY

GEOPHYSICS GEOLOGY

TRAINING RESERVOIR AND AND DEVELOPMENT PRODUCTION ENGINEERING

GEOLOGY

GEOPHYSICS MINING

OTHER AND TRAINING DEVELOPMENT

GEOLOGY

GEOPHYSICS

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

GEOPHYSICS

MINING

NEAR SURFACE TRAINING TRAINING AND AND DEVELOPMENT DEVELOPMENT

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

DRILLING

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

CROSS DRILLING GEOPHYSICS DISCIPLINE

PETROLEUM OTHER OTHER ENGINEERING

NEAR RESERVOIR SURFACEAND PRODUCTION ENGINEERING

PETROLEUM NEAR TRAINING SURFACE AND ENGINEERING DEVELOPMENT

GEOLOGY

GEOPHYSICS

TRAINING AND GEOPHYSICS DEVELOPMENT

GEOCHEMISTRY DRILLING MINING

PETROPHYSICS

OTHER PETROPHYSICS PETROLEUM ENGINEERING

GEOCHEMISTRY GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR PETROPHYSICS AND PRODUCTION ENGINEERING

GEOPHYSICS GEOLOGY

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

NEAR SURFACE GEOCHEMISTRY GEOCHEMISTRY

CROSS CROSSDISCIPLINE DISCIPLINE

DRILLING DRILLING

NEAR NEARSURFACE SURFACE

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

CROSS CROSSDISCIPLINE DISCIPLINE

TRAINING RESERVOIR AND AND DEVELOPMENT PRODUCTION ENGINEERING

GEOPHYSICS MINING

OTHER

Geology for Non-Geologists * George Bertram, Stratigraphic Research Int.

PETROPHYSICS

33

OTHER

PETROPHYSICS

PETROLEUM NGINEERING

OTHER AND TRAINING DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

GEOLOGY

GEOPHYSICS

NEAR NEARSURFACE SURFACE

MINING

OTHER

PETROPHYSICS PETROPHYSICS

33

CROSS DISCIPLINE

NEAR SURFACE GEOCHEMISTRY GEOCHEMISTRY

DRILLING DRILLING

OTHER CROSS DISCIPLINE MINING

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

GEOCHEMISTRY GEOCHEMISTRY

GEOLOGY GEOLOGY

PETROLEUM TROLEUM GINEERING NGINEERING

PETROPHYSICS PETROPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE OTHER

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

CROSS DISCIPLINE

DRILLING

NEAR SURFACE

PETROLEUM ENGINEERING

34

PETROPHYSICS

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

35

GEOCHEMISTRY

PETROPHYSICS

NEAR OTHER SURFACE

CROSS DRILLING DISCIPLINE

PETROLEUM NEARMINING SURFACE ENGINEERING

TRAINING AND DEVELOPMENT

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY DRILLING

GEOCHEMISTRY GEOLOGY

GEOPHYSICS GEOLOGY

PETROPHYSICS PETROLEUM ENGINEERING

RESERVOIR PETROPHYSICS AND PRODUCTION ENGINEERING

TRAINING RESERVOIR AND AND DEVELOPMENT PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS MINING

MINING

TRAINING OTHER AND DEVELOPMENT

OTHER

31

32

OTHER

MINING

OTHER

OTHER

MINING MINING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

DRILLING

GEOCHEMISTRY

GEOLOGY

35

CROSS DISCIPLINE

DRILLING

NEAR SURFACE

PETROLEUM ENGINEERING

GEOPHYSICS

GEOCHEMISTRY

MINING

6 NEAR SURFACE

Conduits and Seals in Hydrocarbon Reservoirs: A Geomechanical Approach * Dirk Nieuwland, NewTec International DRILLING

PETROLEUM GEOLOGY GEOLOGY ENGINEERING

GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS GEOPHYSICS

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND MINING MINING PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

36

Natural Fracture Systems and Fractured Hydrocarbon Accumulations, Mechanics and Management * Dirk Nieuwland, NewTec International RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

DRILLING

PETROLEUM GEOLOGY GEOLOGY ENGINEERING

GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS GEOPHYSICS

PETROPHYSICS

36

OTHER OTHER

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

GEOLOGY

RESERVOIR AND MINING MINING PRODUCTION ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

Understanding Subsurface Pressure and Pressure Prediction 37 Phill Clegg, Ikon Science RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

GEOLOGY

OTHER OTHER

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

GEOPHYSICS

MINING

Basin and Petroleum Systems Modeling: Applications for 37 Conventional and Unconventional Petroleum Exploration Risk and Resource Assessments * Bjorn Wygrala, Schlumberger TRAINING AND DEVELOPMENT

OTHER

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Image LOG Interpretation * Peter Lloyd, Honorary Professor RESERVOIR AND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

CROSS DISCIPLINE

MINING

GEOPHYSICS GEOPHYSICS

CROSS DISCIPLINE

CROSS DISCIPLINE

PETROPHYSICS PETROPHYSICS

MINING

More from Seismic – A Workshop on Seismic Stratigraphic Techniques * George Bertram, Stratigraphic Research Int. RESERVOIR AND PRODUCTION ENGINEERING

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

MINING

Pragmatic Sequence Stratigraphy * Gary Hampson, Imperial College London

DRILLING DRILLING

GEOLOGY

Applied Depth Imaging Ruben D. Martinez

GEOCHEMISTRY

Principles and Applications of Petroleum System Analysis 34 Andrew Bell, Shell and Peter Nederlof, Consultant

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

GEOCHEMISTRY

MINING

PETROLEUM NGINEERING

PETROPHYSICS GEOCHEMISTRY

RESERVOIR AND PRODUCTION ENGINEERING

NEAR SURFACE GEOPHYSICS

DRILLING

Borehole-Scale Fracture and Geomechanical Characterization of Conventional and Unconventional RESERVOIR AND TRAINING AND OTHER Reservoirs PRODUCTION DEVELOPMENT ENGINEERING Mohammed Ameen, Saudi Aramco

CROSS DISCIPLINE GEOLOGY

TROLEUM DRILLING GINEERING

30

DRILLING

MINING

GEOCHEMISTRY

GEOCHEMISTRY

GEOLOGY

Geology

DRILLING

DRILLING

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

PETROPHYSICS

PETROPHYSICS PETROPHYSICS

GEOCHEMISTRY

CROSS MINING DISCIPLINE

Rock Physics and Computational Geophysics José M. Carcione

PETROPHYSICS

Shale Gas, CBM and UCG: How Unconventional! * Peter Styles, Keele University

PETROLEUM TROLEUM GINEERING NGINEERING

30

OTHER

GEOLOGY

GEOLOGY GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

PETROLEUM ENGINEERING

CROSS DISCIPLINE GEOLOGY

GEOCHEMISTRY GEOCHEMISTRY

29

GEOPHYSICS

NEAR SURFACE

GEOCHEMISTRY

DRILLING DRILLING

GEOLOGY

Seismic Velocities and Depth Conversion * Mac Al-Chalabi, Independent Consultant

CROSS DISCIPLINE

CROSS DISCIPLINE

OTHER

DRILLING

MINING

CROSS DISCIPLINE

Understanding Seismic Anisotropy in Exploration and Exploitation: Hands On * Leon Thomsen, Delta Geophysics

RESERVOIR AND PRODUCTION ENGINEERING

PETROPHYSICS

GEOPHYSICS

29

NEAR GEOLOGY SURFACE

PETROLEUM OTHER ENGINEERING

DRILLING

PETROLEUM CROSS GEOPHYSICS DISCIPLINE ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

PETROPHYSICS DRILLING MINING

RESERVOIR AND GEOCHEMISTRY PRODUCTION ENGINEERING

TRAINING AND GEOLOGY DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

38

OTHER

MINING

OTHER GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

SS DISCIPLINE

DRILLING

AR SURFACE DRILLING

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROLEUM NGINEERING

PETROPHYSICS

3D Reservoir Modeling of Naturally Fractured Reservoirs * 38 Tim Wynn, AGR-Petroleum Services GEOCHEMISTRY

PETROPHYSICS GEOLOGY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING DEVELOPMENT

OTHER

CROSS DISCIPLINE

Geological Evolution of Tethys Domains and Surroundings Since the Late Paleozoic * Eric Barrier, North Caspian Operating Company RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

NEAR SURFACE

NEAR SURFACE DRILLING

DRILLING

Top Seals and Fault Seals in Clastic and Carbonate Reservoirs: A Practical Approach for Exploration, Production and Reservoir Engineering * Dirk Nieuwland, NewTec International GEOCHEMISTRY

39

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS

PETROPHYSICS GEOLOGY

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

GEOLOGY

GEOPHYSICS

CROSS DISCIPLINE

TRAINING AND DEVELOPMENT

DRILLING

AR SURFACE DRILLING

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROLEUM NGINEERING

PETROPHYSICS

RILLING

GEOCHEMISTRY

ROLEUM DRILLING DRILLING NEERING

PETROPHYSICS GEOCHEMISTRY GEOCHEMISTRY

GEOCHEMISTRY

PETROPHYSICS GEOLOGY

PETROPHYSICS PETROPHYSICS

GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

PETROLEUM SSS DISCIPLINE DISCIPLINE ENGINEERING

PETROPHYSICS DRILLING DRILLING

R ARSURFACE SURFACE

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

DRILLING

GEOCHEMISTRY

PETROLEUM ENGINEERING

PETROPHYSICS

TRAINING AND GEOPHYSICS GEOPHYSICS DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

AR SURFACE

NEAR NEAR SURFACE SURFACE DRILLING

PETROLEUM ENGINEERING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

CROSS DISCIPLINE

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

RESERVOIR AND GEOCHEMISTRY GEOCHEMISTRY PRODUCTION ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

OTHER GEOPHYSICS GEOPHYSICS

PETROLEUM PETROLEUM GEOCHEMISTRY ENGINEERING ENGINEERING

TRAINING AND CROSS DISCIPLINE DEVELOPMENT

OTHER DRILLING

GEOCHEMISTRY

GEOCHEMISTRY PETROLEUM ENGINEERING

PETROPHYSICS

GEOCHEMISTRY GEOCHEMISTRY

PETROPHYSICS PETROPHYSICS GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

CROSS DISCIPLINE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING CROSS CROSSDISCIPLINE DISCIPLINE

NEAR NEAR SURFACE SURFACE GEOCHEMISTRY

DRILLING

PETROLEUM ENGINEERING

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM GEOLOGY MINING ENGINEERING

PETROPHYSICS GEOPHYSICS

RESERVOIR AND MINING PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Integrated Reservoir Modeling Michael Poppelreiter PETROPHYSICS TRAINING AND DEVELOPMENT DRILLING DRILLING

PETROLEUM PETROLEUM GEOLOGY ENGINEERING ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

PETROPHYSICS

RESERVOIR OTHERAND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY GEOCHEMISTRY

GEOLOGY GEOLOGY

GEOPHYSICS GEOPHYSICS

MINING MINING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

RESERVOIR AND PRODUCTION ENGINEERING

PETROPHYSICS PETROPHYSICS GEOPHYSICS

TRAINING AND DEVELOPMENT

RESERVOIR RESERVOIR AND AND MINING PRODUCTION PRODUCTION ENGINEERING ENGINEERING

42

OTHER

GEOLOGY

GEOPHYSICS

GEOLOGY RESERVOIR AND PRODUCTION ENGINEERING

MINING

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

44

Challenges and Solutions in Stochastic Reservoir Modeling: Geostatistics and Machine Learning * Vasily Demyanov, Heriot-Watt University

CROSS CROSS DISCIPLINE DISCIPLINE

DRILLING DRILLING

GEOCHEMISTRY GEOCHEMISTRY

NEAR NEAR SURFACE SURFACE

PETROLEUM PETROLEUM CROSS DISCIPLINE ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS DRILLING

RESERVOIR RESERVOIR ANDAND GEOCHEMISTRY PRODUCTION PRODUCTION ENGINEERING ENGINEERING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

GEOPHYSICS TRAINING AND DEVELOPMENT

Streamline Simulation: Theory and Practice Akhil Datta-Gupta, Texas A&M University

GEOLOGY GEOLOGY

GEOPHYSICS GEOPHYSICS

TRAINING TRAINING ANDAND GEOLOGY DEVELOPMENT DEVELOPMENT

44

MINING MINING

OTHER OTHER GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

MINING

OTHER

RESERVOIR AND PRODUCTION ENGINEERING

Petroleum Engineering  PETROPHYSICS

GEOLOGY GEOLOGY

43

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

RESERVOIR RESERVOIR AND AND GEOPHYSICS PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING AND DEVELOPMENT

DRILLING

GEOPHYSICS GEOPHYSICS

MINING MINING

TRAINING TRAINING AND AND MINING DEVELOPMENT DEVELOPMENT

OTHER OTHER

45 CROSS DISCIPLINE

NEAR SURFACE CROSS DISCIPLINE

OTHER

NEAR SURFACE

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

PETROLEUM DRILLING ENGINEERING

PETROLEUM ENGINEERING

Well Logs and Borehole Image Michael Poppelreiter GEOCHEMISTRY

PETROPHYSICS GEOCHEMISTRY

GEOLOGY

RESERVOIR GEOLOGY AND PRODUCTION ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOPHYSICS DEVELOPMENT

TRAINING AND DEVELOPMENT

45

MINING

OTHER MINING

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

7

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

NEAR SURFACE GEOCHEMISTRY GEOPHYSICS

40

CROSS DISCIPLINE

Handling Risk and Uncertainty in Mature Fields Mark Bentley, AGR PS and Richard Oxlade, AGR PS DRILLING DRILLING

NEAR PETROPHYSICS SURFACE

OTHER OTHER

MINING

DRILLING

PETROLEUM ENGINEERING

DRILLING GEOLOGY

39

43

MINING MINING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

GEOPHYSICS

GEOCHEMISTRY

OTHER

MINING

TRAINING GEOLOGY GEOLOGYAND DEVELOPMENT

GEOLOGY

DRILLING

MINING

Satellite InSAR Data: Reservoir Monitoring from Space (EET 9) Alessandro Ferretti, Tele-Rilevamenta Europa (TRE) PETROPHYSICS PETROPHYSICS

41

OTHER

Reservoir and Production Engineering

GEOPHYSICS

OTHER

OTHER OTHER

Well Test Analysis * Shiyi Zheng, London South Bank University GEOLOGY

TRAINING AND MINING DEVELOPMENT

OTHER MINING MINING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

S DISCIPLINE

PETROLEUM ENGINEERING

GEOPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

MINING

NEAR SURFACE

CROSS CROSS DISCIPLINE DISCIPLINE

OTHER DRILLING

NEAR SURFACE OTHER

GEOLOGY

CROSS DISCIPLINE

NEAR SURFACE

CROSS GEOCHEMISTRY DISCIPLINE

MINING

TRAINING AND CROSS DISCIPLINE MINING DEVELOPMENT

GEOPHYSICS

RESERVOIR AND GEOLOGY GEOLOGY PRODUCTION ENGINEERING

PETROPHYSICS

GEOCHEMISTRY

TRAINING AND DEVELOPMENT

DRILLING

GEOPHYSICS

PETROLEUM ENGINEERING

Deepwater Reservoirs: Exploration and Production Concepts* Dorrik Stow, Heriot-Watt University

GEOCHEMISTRY

PETROLEUM TROLEUM GINEERING NGINEERING

DRILLING

OTHER

NEAR SURFACE

SS DISCIPLINE

MINING

MINING

Sedimentary Structures and Their Relation to Bedforms and Flow Conditions * Janrik van den Berg, Utrecht University RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

Applied Microfacies Mumtaz Shah and Michael Poppelreiter

CROSS DISCIPLINE

DRILLING

GEOLOGY

40

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOCHEMISTRY

SS DISCIPLINE

DRILLING

NEAR SURFACE

DRILLING

TROLEUM GINEERING

SS DISCIPLINE

EAR SURFACE

PETROLEUM CROSS DISCIPLINE DRILLING ENGINEERING

GEOLOGY

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

PETROPHYSICS

PETROPHYSICS GEOCHEMISTRY DRILLING

RESERVOIR AND GEOCHEMISTRY GEOLOGY PRODUCTION ENGINEERING

CROSS DISCIPLINE NEARPETROLEUM SURFACE ENGINEERING

GEOPHYSICS

MINING

Reservoir Geochemistry * Kenneth Peters, Schlumberger

PETROLEUM ENGINEERING

AR SURFACE OSS DISCIPLINE

Geochemistry

PETROLEUM PETROPHYSICS ENGINEERING

TRAINING AND GEOLOGY GEOPHYSICS DEVELOPMENT

RESERVOIR TRAINING AND AND PRODUCTION DEVELOPMENT ENGINEERING

OTHER GEOPHYSICS MINING

TRAINING AND DEVELOPMENT

OTHER

MINING

CROSS CROSSDISCIPLINE DISCIPLINE

GEOCHEMISTRY

TRAINING AND OTHER DEVELOPMENT

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

DRILLING

PETROLEUM CROSS DISCIPLINE ENGINEERING

GEOCHEMISTRY

NEAR SURFACE

CROSS GEOCHEMISTRY DISCIPLINE

NEAR PETROPHYSICS SURFACE

NEAR SURFACE DRILLING GEOLOGY

PETROPHYSICS DRILLING

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

PETROLEUM GEOCHEMISTRY GEOPHYSICS ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR AND GEOCHEMISTRY PRODUCTION ENGINEERING

GEOPHYSICS

CROSS DISCIPLINE

PETROLEUM CROSS GEOCHEMISTRY DISCIPLINE ENGINEERING

PETROPHYSICS

TRAINING GEOLOGYAND DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

OTHER GEOPHYSICS

PETROPHYSICS GEOLOGY DRILLING

GEOPHYSICS GEOPHYSICS

MINING MINING

PETROPHYSICS PETROPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

OTHER

GEOPHYSICS

MINING

PETROPHYSICS GEOLOGY MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING MINING AND DEVELOPMENT

OTHER

TRAINING AND DEVELOPMENT

47

Geophysical Investigation of River Embankments Ernst Niederleithinger, BAM/RWTH Aachen CROSS DISCIPLINE

DRILLING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR SURFACE GEOLOGY

PETROLEUM GEOPHYSICS ENGINEERING

OTHER

PETROPHYSICS

47

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

GEOCHEMISTRY

GEOLOGY

GEOLOGY

GEOPHYSICS

PETROLEUM ENGINEERING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

GEOPHYSICS

RESERVOIR AND GEOCHEMISTRY GEOPHYSICS PRODUCTION ENGINEERING

PETROPHYSICS

TRAINING AND MINING GEOLOGY DEVELOPMENT

49

OTHER GEOPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER AND RESERVOIR PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM DRILLING ENGINEERING

PETROPHYSICS GEOCHEMISTRY

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

TRAINING AND GEOPHYSICS DEVELOPMENT

OTHER MINING

NEAR SURFACE GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

NEAR OTHER SURFACE

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

CROSS DISCIPLINE

NEAR SURFACE

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOCHEMISTRY

DRILLING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM GEOPHYSICS ENGINEERING

PETROPHYSICS MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

MINING

TRAINING AND DEVELOPMENT

48

OTHER

OTHER

TRAINING AND DEVELOPMENT

DRILLING

GEOCHEMISTRY

CROSS DRILLING GEOLOGY DISCIPLINE

PETROLEUM ENGINEERING

GEOCHEMISTRY GEOPHYSICS DRILLING

51

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY GEOLOGY MINING

GEOPHYSICS GEOLOGY

TRAINING AND DEVELOPMENT

OTHER

MINING GEOPHYSICS

MINING

51

Uncertainty Quantification and Management * Dario Grana, University of Wyoming RESERVOIR PETROLEUM NEAR SURFACE AND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

GEOCHEMISTRY

CROSS GEOLOGY DISCIPLINE

NEAR SURFACE GEOPHYSICS DRILLING

50 NEAR SURFACE

GEOLOGY

GEOPHYSICS

PETROLEUM ENGINEERING

MINING

8 NEAR SURFACE

GEOPHYSICS

Petroleum Geoengineering: Integration of Static and Dynamic Models OTHER Patrick Corbett, Heriot-Watt University

50

CROSS DISCIPLINE

OTHER

DRILLING

CROSS DISCIPLINE

PETROLEUM ENGINEERING

GEOCHEMISTRY

NEAR SURFACE

CROSS DISCIPLINE

PETROLEUM ENGINEERING

OTHER GEOLOGY

RESERVOIR PETROPHYSICS OTHERAND PRODUCTION ENGINEERING DRILLING

TRAINING RESERVOIR ANDAND DEVELOPMENT PRODUCTION ENGINEERING

TRAINING OTHER AND DEVELOPMENT

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING DEVELOPMENT

OTHER

51

OTHER

MINING

Numerical Earth Models (EET 3) Jean-Laurent Mallet, Paradigm NEAR SURFACE

TRAINING AND GEOCHEMISTRY DEVELOPMENT

DRILLING

CROSS DISCIPLINE

DRILLING

RESERVOIR DRILLING AND PRODUCTION ENGINEERING

Seismic Attributes and Their Applications in Seismic Interpretation * Behzad Alaei, Rocksource ASA

Geological History of CO2: Carbon Cycle and Natural Sequestration of CO2 Alain-Yves Huc, IFP Energies nouvelles

CROSS DISCIPLINE

PETROPHYSICS CROSS MINING DISCIPLINE

49

OTHER

TRAINING PETROPHYSICS AND DEVELOPMENT

PETROLEUM ENGINEERING

MINING

MINING

RESERVOIR PETROLEUM AND PRODUCTION ENGINEERING ENGINEERING

NEAR SURFACE

GEOPHYSICS

MINING

MINING

PETROPHYSICS NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Uncertainty in Reservoir Management Peter King, Imperial College London

NEAR SURFACE CROSS DISCIPLINE

GEOLOGY

The Use of Surface Waves for Near-Surface Velocity Model Building * Laura Valentina Socco, Politecnico di Torino

CROSS DISCIPLINE

PETROLEUM ENGINEERING

GEOCHEMISTRY

48

MINING

TRAINING AND DEVELOPMENT

GEOLOGY

DRILLING

GEOCHEMISTRY

GEOLOGY GEOLOGY

Cross Discipline

NEAR SURFACE

NEAR SURFACE DRILLING

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

TRAINING AND DEVELOPMENT

Hydrocarbon Recovery * Theo Kortekaas, Heriot-Watt University DRILLING

MINING

GEOCHEMISTRY

OTHERAND RESERVOIR PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

PETROLEUM ENGINEERING

DRILLING

GEOCHEMISTRY GEOCHEMISTRY

MINING

NEAR NEARSURFACE SURFACE

OTHER

Near-Surface Geoscience * Andreas Laake, WesternGeco CROSS DISCIPLINE

DRILLING DRILLING

GEOPHYSICS

Everything You Wanted (Needed!) to Know about ­Environmental Geophysics but were Afraid to Ask! (EET 7) Peter Styles, Keele University CROSS DISCIPLINE

46

Near Surface

NEAR SURFACE

Petroleum Systems and Exploration Geochemistry * Kenneth Peters, Schlumberger

MINING

RESERVOIR AND PRODUCTION ENGINEERING

DRILLING

PETROPHYSICS RESERVOIR AND PRODUCTION ENGINEERING

46

PETROPHYSICS

RESERVOIR NEAR SURFACE AND PRODUCTION ENGINEERING

TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

PETROLEUM GEOCHEMISTRY MINING ENGINEERING

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

RILLING

GEOCHEMISTRY

ROLEUM NEERING

PETROPHYSICS

Geomechanics for Energy-related Applications * Lyesse Laloui, Swiss Federal Institute of Technology Alessio Ferrari, Swiss Federal Institute of Technology CROSS GEOLOGY DISCIPLINE

GEOPHYSICS DRILLING

GEOCHEMISTRY MINING

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS OTHER GEOCHEMISTRY

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

TRAINING AND GEOPHYSICS DEVELOPMENT

OTHER MINING

52 CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR NEAR SURFACE AND CROSS DISCIPLINE PRODUCTION ENGINEERING

TRAINING PETROLEUM AND DRILLING DEVELOPMENT ENGINEERING

Applications of 3D and 4D Geomechanical Models in Petroleum Exploration and Production (EET 5) * Jorg Herwanger, Ikon Science NEAR SURFACE

RILLING

GEOCHEMISTRY

ROLEUM DRILLING NEERING

PETROPHYSICS GEOCHEMISTRY

TROLEUM GINEERING

PETROPHYSICS

CROSS DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

GEOLOGY

RESERVOIR AND CROSS GEOLOGY DISCIPLINE PRODUCTION ENGINEERING

PETROPHYSICS

GEOPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER GEOCHEMISTRY MINING

CROSS DISCIPLINE

GEOLOGY

GEOPHYSICS

CROSS DISCIPLINE CROSS DRILLING DISCIPLINE

TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

DRILLING GEOCHEMISTRY DRILLING

PETROPHYSICS OTHER

GEOCHEMISTRY GEOCHEMISTRY GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY GEOPHYSICS GEOLOGY

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

PETROLEUM PETROPHYSICS PETROLEUM ENGINEERING ENGINEERING

PETROPHYSICS RESERVOIR PETROPHYSICS AND PRODUCTION ENGINEERING

DRILLING

GEOCHEMISTRY

RESERVOIR AND TRAINING RESERVOIR AND AND PRODUCTION DEVELOPMENT PRODUCTION ENGINEERING ENGINEERING

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

MINING MINING

GEOLOGY

TRAINING TRAINING AND OTHER AND DEVELOPMENT DEVELOPMENT

54

OTHER OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE

PETROLEUM ENGINEERING

PETROLEUM ENGINEERING

GEOCHEMISTRY

PETROPHYSICS CROSS DISCIPLINE

PETROPHYSICS

GEOLOGY

GEOPHYSICS

RESERVOIR AND CROSS DRILLING DISCIPLINE PRODUCTION ENGINEERING

TRAINING GEOCHEMISTRY DRILLINGAND DEVELOPMENT

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

GEOLOGY GEOPHYSICS

NEAR PETROLEUM SURFACE ENGINEERING

PETROLEUM PETROPHYSICS ENGINEERING

CROSS DISCIPLINE

CROSS CROSSDISCIPLINE DISCIPLINE

GEOLOGY

NEARDRILLING SURFACE DRILLING

GEOPHYSICS NEAR NEARSURFACE SURFACE

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

PETROLEUM GEOCHEMISTRY GEOCHEMISTRY ENGINEERING

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

TRAINING AND DEVELOPMENT

OTHER TRAINING AND DEVELOPMENT

OTHER

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS GEOLOGY GEOLOGY

RESERVOIR AND GEOPHYSICS GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING MINING DEVELOPMENT

OTHER

PETROPHYSICS PETROPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

TRAINING AND DEVELOPMENT

OTHER

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

56

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

57

OTHER

GEOLOGY MINING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Gravity and Magnetic Methods for Resource Exploration and Production 3D Inversion and Quantitative Interpretation (EET 11) Yaoguo Li PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

DRILLING

PETROLEUM OTHER ENGINEERING

GEOCHEMISTRY

GEOLOGY

PETROPHYSICS

GEOPHYSICS

Digital Rock Technology Mark Knackstedt PETROLEUM ENGINEERING

CROSS DISCIPLINE GEOCHEMISTRY

PETROPHYSICS

DRILLING GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

TRAINING AND DEVELOPMENT

GEOPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

57

OTHER

MINING

58

OTHER

MINING

NEAR SURFACE PETROPHYSICS CROSS DISCIPLINE

PETROLEUM RESERVOIR AND DRILLING ENGINEERING PRODUCTION ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS TRAINING AND GEOCHEMISTRY DEVELOPMENT

PETROPHYSICS

RESERVOIR OTHERAND GEOLOGY PRODUCTION ENGINEERING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND GEOPHYSICS DEVELOPMENT

TRAINING AND DEVELOPMENT

OTHER MINING

OTHER

OTHER

59

DRILLING

GEOCHEMISTRY

GEOLOGY

Attracting, Developing and Retaining Top Technical People * Peter Lloyd, Honorary Professor GEOPHYSICS

59

MINING

OTHER

DRILLING

GEOCHEMISTRY

GEOLOGY

PETROLEUM ENGINEERING

GEOPHYSICS

PETROPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

9

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

Training and Development

NEAR SURFACE

CROSS DISCIPLINE

PETROPHYSICS

55

MINING

OTHER MINING

OTHER OTHER

CROSS DISCIPLINE

TRAINING AND DEVELOPMENT

TRAINING OTHER AND GEOPHYSICS DEVELOPMENT

PETROLEUM ENGINEERING

PETROLEUM ENGINEERING

NEAR SURFACE

Art of Science * Roel Snieder, Colorado School of Mines GEOPHYSICS

TRAINING RESERVOIR AND AND GEOLOGY DEVELOPMENT PRODUCTION ENGINEERING

MINING

MINING

RESERVOIR AND PRODUCTION ENGINEERING

DRILLING

RESERVOIR TRAINING AND AND PRODUCTION DEVELOPMENT ENGINEERING

PETROPHYSICS RESERVOIR AND PRODUCTION ENGINEERING

PETROLEUM ENGINEERING

MINING

Geomechanical Analysis for Wellbore Stability * Hamed Soroush, Petrolern Ltd. NEAR SURFACE

DRILLING

NEAR SURFACE

GEOPHYSICS MINING

RESERVOIR PETROPHYSICS AND GEOCHEMISTRY PRODUCTION ENGINEERING

GEOPHYSICS MINING

55

OTHER

MINING

OTHER GEOCHEMISTRY GEOLOGY

NEAR SURFACE

CROSS DISCIPLINE

NEAR SURFACE

GEOCHEMISTRY GEOPHYSICS

CROSS DISCIPLINE

MINING

Shale Gas Geomechanics * Hamed Soroush, Petrolern Ltd.

GEOPHYSICS GEOLOGY

54

Geostatistics for Seismic Data Integration in Earth Models * Olivier Dubrule, Total/Imperial College London NEAR PETROLEUM NEARSURFACE SURFACE ENGINEERING

PETROPHYSICS PETROLEUM DRILLING ENGINEERING

NEAR SURFACE

OTHER

GEOPHYSICS MINING GEOPHYSICS

GEOCHEMISTRY GEOLOGY

Carbonate Essentials: Pores to Prospect Christopher Liner

MINING

Dealing with Geohazards in New Frontiers – Prevention the Better Cure * Robert Gruenwald, Sasol Petroleum International RESERVOIR NEAR SURFACE AND PRODUCTION ENGINEERING

PETROLEUM NEAR SURFACE CROSS DISCIPLINE ENGINEERING

GEOCHEMISTRY DRILLING

NEAR SURFACE

MINING

TRAINING AND GEOPHYSICS DRILLING DEVELOPMENT

CROSS DRILLING DISCIPLINE

56

Exploring with Airborne Gravity Gradiometry Asbjorn Norlund Christensen

53

OTHER

Assuring Flow from Pore to Process * Abul Jamaluddin, Schlumberger

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Advanced Marine Seismic Acquisition Techniques * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Applied AVO * CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Mike Branston, WesternGeco TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course Description: The course is designed to familiarize participants with the latest developments in marine seismic acquisition including wide-azimuth with its many geometry variants, broadband techniques (boosting high and low frequencies), sea-bed receivers for both P-wave and convertedwave recordings, time-lapse surveys and the emerging technology of simultaneous source acquisition. Course Objectives: A practical approach is adopted and designed to provide the student with an up-to-date understanding of recent developments in marine seismic acquisition technology. At the end of the course the student should be able to understand why and where these new technologies would be applicable, understand what studies are required to design new surveys and understand the relative costs of acquiring and processing seismic data compared to conventional acquisition. Participants’ Profile: The course is designed for geophysicists and explorationists who wish to gain an overview of recent developments in 3D marine seismic acquisition. Students are assumed to have a working knowledge of the seismic method and its use in exploration and development of hydrocarbon resources. Prerequisites: Participants should have a working knowledge of conventional seismic acquisition techniques and their use in exploration and development of hydrocarbon resources.

Duration: one-day Course level: Foundation CPD Points: 5 Instructor: Anthony Fogg, Seismic Image Processing TRAINING AND DEVELOPMENT

OTHER

Course description: AVO (Amplitude Versus Offset) analysis is a method many geoscientists may be aware of but they perhaps do not know how the techniques are implemented and the best way to apply the technology. This course introduces the basics of the AVO theory and how it is used to create attributes from seismic reflection data that reveal the underlying rock and fluid characteristics of the subsurface. The course is not mathematical but does introduce some simple equations that help the student understand how AVO is used to create quantitative measurements from surface seismic data. Over the last decade there has been a convergence of AVO and seismic inversion technologies and this course reviews the current state of the joint application of these methods. Course objectives: Upon completion of the course, participants will be able to: Understand the commercial application of AVO, rock physics and seismic inversion methods; what the results tell you and the possible limitations and errors in those results. Participants will be in a better position to critically analyse the results of such studies presented to them by contractors or partner companies. Participants will also be shown techniques to enable them to undertake some simple reconnaissance AVO procedures. Participants Profile: Interpreters, geologists, geophysicists and other geoscience disciplines who have an interest in understanding how AVO, rock physics and seismic inversion is applied in real world studies. Prerequisites: Participants should have some knowledge of seismic data (prestack and post-stack) and log data.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

10 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

An Introduction to Velocity Model Building *

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

Duration: one-day or two-day CPD Points: 5 or 10 Course Level: Foundation Instructor: Ian Jones, ION Geophysical TRAINING AND DEVELOPMENT

OTHER

Course Description: The day will begin with a review of migration theory, emphasizing those aspects that affect our ability to build a velocity model of the subsurface and indicating when time migration should be replaced with depth migration (and what specific type of depth migration should be used). Ray theory and wave theory will be mentioned, in terms of how the scale length of a velocity anomaly versus the wavelength of the sound illuminating interacts. We will then cover the motivations for building detailed velocity models and briefly discuss the inherent limitations on our ability to build a detailed model. A review of anisotropy and the principles of tomographic inversion will be given and current-day practice will be covered, exemplified via several case studies. The approach will not be mathematical but rather will try to concentrate on an intuitive understanding of the principles and demonstrate them via case histories. This course will try to provide a complete overview but some topics such as VSP and multi-component data will not be covered.

GEOCHEMISTRY

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

sumptions involved in building velocity-depth models and of the limitations of various migration algorithms. Upon completion of this course, the participants should be able to: 1) Describe how migration works, in terms of the underlying physics and the associated approximations involved. 2) Classify model building and migration schemes in terms of the theory on which they are based (waves versus rays) 3) Decide which migration and model building scheme are appropriate for imaging a given geological environment 4) Characterize the limitations of model building and migration schemes, in terms of imaging artefacts 5) Differentiate between the current state-of-the art and future imaging and parameter estimation technologies. Participants’ Profile: Geophysicists with an interest in migration and velocity model building and geologists (with a basic knowledge of data processing) who wish to understand a bit more about how the images they look at are created. Prerequisites: Participants ideally need to have some knowledge of basic data processing.

Course Objective(s): The course objective is to provide the participants with a firm understanding of the processes and as-

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

Velocity Anomalies now online!

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

11

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

Watch a brief lecture with Dr Ian Jones on Near Surface

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Full-Waveform Inversion: Where are the Anisotropic Parameters Hiding? (EET 10) GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

Land Seismic of New Technological Level *

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

Course description: Full-waveform inversion is gaining attention as potentially the final and ultimate solution to the Earth’s resolution and imaging objective. This objective will be met when we fully address and solve FWI’s many challenges and chief among them, its ability to handle the anisotropic nature of the Earth. This course combines the fundamentals of FWI with what is needed to make it work practically in anisotropic media. The multi-parameter nature of such an inversion requires a careful setup of the inversion problem and this course will provide the foundation to do so. Course Objectives: Upon completion of the course, participants will be able to understand: •  The scientific foundation behind full-waveform inversionThe FWI challenges •  Wave propagation in anisotropic media- Anisotropy + Migration velocity analysis- Anisotropy + FWI Participants’ Profile: The course is designed for geophysics, mathematicians and physicists working on problems related to seismic imaging of the Earth and building the necessary velocity models to do so. Prerequisites: Some knowledge on the physics of seismic wave propagation.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

12 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

GEOPHYSICS

MINING

MINING

Duration: one-day CPD Points: 5 Course level: Foundation Instructor: Tariq Alkhalifah, KAUST TRAINING AND DEVELOPMENT

NEAR SURFACE

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Anatoly Cherepovski, Sercel TRAINING AND DEVELOPMENT

OTHER

Course Description: This course will provide information related to recent trends and advances in land seismic data acquisition technology, equipment and the methodologies that are being utilised to improve seismic imaging quality and productivity of 3D acquisition with an emphasize on high-end surveys as performed in open areas. The course will not cover the fundamentals of 3D and multicomponent seismic survey design, although there will be a section that will give a review of recent survey design approaches and principles. Course Objective(s): The purpose of this course is to: •  provide an overview of trends in 3D land seismic and achievements •  understand trade-offs in modern field technologies •  understand the ways to improve seismic imaging and data conditioning for better reservoir characterisation Participants’ Profile: The course is appropriate not only for geophysicists involved in land survey design, acquisition and modelling but also for those involved in data processing and interpretation who wish to better understand the potential improvements that can be made. Prerequisites: The course assumes familiarity with basic seismic acquisition techniques and equipment. No mathematical background is required, since physical concepts are graphically illustrated. A comprehensive list of references is given in the book.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Seismic Acquisition on Land from Yesterday to Tomorrow *

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Julien Meunier, CGG TRAINING AND DEVELOPMENT

OTHER

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

A Comprehensive Overview of Seismic Data Processing Steps *

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

Course Description: There seems to be a very recent acceleration in the evolution of seismic acquisition. Offshore, wide-azimuth surveys have resulted in images of remarkable clarity. On land, increase in channel count has allowed the use of denser grids leading to significant noise reduction. Both onshore and offshore, the race for bandwidth extension is tenser than ever. This course presents these developments as a natural consequence of the conjunction of our need for clearer seismic images and the availability of recent technological advances. The core of the course is the relationship between acquisition parameters and seismic image quality. This course was a SEG/EAGE DISC 2011 course. Course Objectives: Survey design is discussed but not covered in detail. Upon completion, the participant will be able to: •  Improve knowledge of where seismic acquisition comes from and where it may be going. •  Gain the capability to distinguish between signal and noise parts – at least for most cases. •  Understand the available leverage on signal and noise as well as the leverage that is not available. •  Most importantly, understand that there is a relationship between acquisition parameters and seismic image quality. Ideally increase their knowledge of this relationship. Participants’ Profile: All those interested in seismic imagery. The acquisition geophysicist may discover an unfamiliar presentation of familiar concepts. The processing geophysicist may discover the causes of some types of perturbations in seismic images. Likewise, the interpreter may gain understanding of the limitations in seismic images.

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Piet Gerritsma, Gerritsma Geophysical Training and Consultancy PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Seismic data processing can be characterized by a sequence of steps where for each of these steps there are a number of different approaches. This course gives a comprehensive overview of the steps that are common in seismic data processing and discusses for each step a variety of alternative implementations together with their inherent assumptions and strengths and weaknesses. The course emphasizes for each step the underlying geophysical model together with its alternatives; many examples will be shown to illustrate the material; theory with references will be included; a handout that covers all course material will be made available. Course Objectives: Upon completion of this course, participants will have obtained an understanding and appreciation of the many alternative processing approaches that are representative of current seismic data processing practices. Participants’ Profile: Starting geophysicists, interpreters and geologists, petrophysicists and reservoir engineers and students who wish to understand seismic data processing either as an introduction for further study and/or as a knowledgeable member of a multidisciplinary team. Prerequisites: Course participants should be interested in seismic data processing; a background in science will be sufficient.

Prerequisites: The mathematical level of this course is elementary, although those with no idea of what the Fourier transform is may find some chapters difficult to follow. Those with no prior knowledge of seismic reflection would profit from advance reading of chapters 2 (especially the definitions) and 3, which will be presented relatively fast in this one-day course. Young professionals or students with no industrial experience will find the presentation very different from those given in universities.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

13

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Principles and Applications of Seismic Interferometry and Ambient Noise Seismology in Hydrocarbon Exploration * GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS

GEOLOGY

RESERVOIR AND MINING PRODUCTION ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Gerard Schuster, KAUST TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

Course Objectives: Upon completion of the course, participants will be able to: •  Replicate the basic workflow for applying seismic ­interferometry to seismic data. •  Execute MATLAB codes for applying seismic interferometry to controlled source and ambient noise VSP and SSP data. •  Derive the basic equations of interferometry. •  A diligent and well-prepared participant might be able to adapt a novel interferometric solution to their particular seismic problem. Participants’ Profile: The integrated nature of this course means that it is suitable for seismic interpreters, researchers and data processors. Managers are encouraged to attend in order to consider the potential of seismic interferometry in solving some of their exploration and reservoir problems. Prerequisites: Participants should have knowledge of calculus and some familiarity with the intuitive physics of wave propagation, e.g., geometrical spreading, traveltime representation for kinematics, reflection coefficients and mathematical description of spherical waves.

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

14 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Broadband Seismic: A Platform to Understand, Measure, Compare and Exploit the Options Available Today and Tomorrow *

Course Description: This course is designed for a broad range of seismic researchers, data processors and interpreters working in the petroleum industry. The course teaches the principles of seismic interferometry, ambient noise seismology and their applications to surface seismic, VSP and OBS data. The ultimate objectives are to enable geophysicists to evaluate the potential of seismic interferometry in uniquely solving their problems.

CROSS DISCIPLINE

NEAR SURFACE

GEOPHYSICS

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Andrew Long, PGS and Mazin Farouki, PGS TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course provides a comprehensive but accessible overview of the many concepts relevant to Broadband Seismic. A key outcome is an appreciation of how the many processing and acquisition-based “broadband” solutions can be understood, measured and compared. Furthermore, the broadband concept leads to a wider issue; full wavefield seismic, where the full primary and multiple wavefields can be used to illuminate, image and characterize the earth far more comprehensively than possible today. The course content is unbiased and will attempt to objectively consider all solutions available in academia and industry today, as well as introduce emerging novel and lesser known ideas and solutions. Course Objectives: Participants will leave with an understanding of modern best-practice workflows for interpreting and measuring “broadband” seismic data. Emphasis is given to the fact that any seismic “solution” contains many assumptions, for both acquisition and processing products. Discussion will deliberately be very candid. Participants will also be aware of likely developments in the timeframe of the next five years for the broader industry. Participants’ Profile: A basic level of geophysical knowledge is assumed, including a general knowledge of towed streamer acquisition and processing methods, but the content is designed to be accessible. In other words, definitely no requirements for expert knowledge.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

The Benefit of Broadband Technology for Reservoir Characterization and Imaging the End and User Value * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Cyrille Reiser, PGS TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Seismic Fracture Characterization: Concepts and Practical Applications (EET 8)

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

MINING

OTHER

Course Description: The main aim of this course is to provide a very accessible overview of the many concepts behind the Broadband Seismic (primarily offshore) and its implication for the reservoir focused asset based geoscientist. This will be done through the use of a very comprehensive set of case study material from all regions of the world and for various stage of the exploration, appraisal and development asset life cycle. The course will be aiming to objectively discuss the various broadband seismic technologies and commercial offerings available today and their respective merits with regards to quantitative Reservoir Characterization and Reservoir Imaging using real world application examples. The course will further attempt to identify possible pitfalls and issues with regards to the treatment of broadband data that might lead to flawed or erroneous QI. Course Objectives: Upon completion of the course, participants will be able to understand the value of broader bandwidth seismic data in general and for quantitative reservoir analysis from interpretation to rock property estimation in particular. The course is intended to be very applied and hands on and will only review the very basic concepts of inversion based rock property analysis and quantitative interpretation but otherwise focus on examples to illustrate the benefit of extended bandwidth seismic. Participants’ Profile: The course is designed for geoscientist with a basic level of geophysical knowledge, including a general knowledge of towed streamer acquisition and processing methods, but the content is designed to be accessible for most geoscientist working with or interested in using broadband seismic in their day to day working life. In other words, definitely no requirements for expert knowledge.

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Enru Liu, ExxonMobil TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: This course provides an introduction to the fundamental concepts of seismic fracture characterization by introducing seismic anisotropy, equivalent-medium representation theories of fractured rock and methodologies for extracting fracture parameters from seismic data. We focus on practical applications using extensive field data examples. Three case studies are included to demonstrate the applicability, workflow and limitations of this technology: a physical laboratory 3D experiment where fracture distributions are known, a Middle East fractured carbonate reservoir and a fractured tight gas reservoir. Course Objectives: Upon completion of the course, participants will be able to: •  understand key geological aspects of fractures and their roles in hydrocarbon exploration and production; •  understand fundamental concepts of seismic anisotropy and the equivalent medium representation of fractured rock; •  understand the principal methodologies of seismic fracture characterization using shear-wave splitting and azimuthal variation of seismic attributes •  understand the basic data requirement, assumptions, ­limitations and applicability of seismic fracture prediction technology. •  apply the practical workflow introduced in this course to real seismic data •  interpret and integrate seismically-derived fractures with other measurements. Participants’ Profile: This course is designed for individuals from all subsurface disciplines including geophysics, geomechanics, rock physics, petrophysics, geology, reservoir modeling and reservoir engineering. Prerequisites: This course is designed for both students and experienced geoscientists and engineers.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

15

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

CROSS DISCIPLINE

NEAR GEOLOGY SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Seismic Surveillance for Reservoir Delivery (EET 6) * DRILLING

PETROLEUM GEOPHYSICS ENGINEERING

GEOCHEMISTRY

PETROPHYSICS CROSS MINING DISCIPLINE

GEOLOGY

RESERVOIR AND DRILLING PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOCHEMISTRY DEVELOPMENT

GEOPHYSICS

TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Olav Inge Barkved, Petoro AS

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

Course Description: This course provides some context for what is driving the dynamic changes linked to producing a hydrocarbon reservoir and what we should expect to observe using seismic technologies in various geological settings. We will address key issues that impact the feasibility of time-lapse seismic and discuss established methods. However, the focus will be on ‘new’ technologies, use of permanent array, frequent seismic surveying and integration. An example from the Valhall field will be used extensively to illustrate the potential of seismic data and to articulate issues related to interpretation and integration. This will include data examples from marine tow 4D and frequent surveying using permanent installed sensors and in well recordings an analysis of passive data, including micro seismicity. Course Objectives: In the course we will aim at addressing: •  What type of fields and mechanisms are candidates for seismic surveillance •  Presenting an overview of available technologies for seismic surveillance of a producing reservoir, with a primary focus on time-lapse methods •  Integrations across the disciplines, challenges and benefits •  How do we value a seismic surveillance •  Can a recent example of emerging technologies tell us what the future will bring? Participants’ Profile: This course should be of interest to managers, geoscientists and reservoir and petroleum engineers who are aiming to integrate time-lapse seismic data into the next level of technical and business decisions and anyone else who sees the benefit of tracking changes in the subsurface as they take place. Prerequisites: Basic appreciation of geosciences and petroleum technical principles linked to producing hydrocarbon is recommended.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

16 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

3D Seismic Attributes for Prospect Identification and Reservoir Characterization

MINING

OTHER GEOLOGY

NEAR SURFACE

GEOPHYSICS

MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Kurt Marfurt, University of Oklahoma TRAINING AND DEVELOPMENT

OTHER

Course Description: This course will address the following questions: •  How can we use attributes to accelerate the interpretation of very large data volumes? •  What is the impact of seismic acquisition and processing on attribute images? Can we use attributes to help choose ­processing parameters? •  What is the physical basis for modern volumetric attributes, including coherence, dip/azimuth, curvature, amplitude ­gradients, textures and spectral decomposition? •  How do we display these attributes to provide the most information and to communicate important concepts to ­non-technical members of our team? •  What is the attribute expression of clastic versus carbonate depositional environments? Of extensional versus compressional deformation? •  How can we use geometric attributes and spectral decomposition to more accurately define the reservoir model? Participants will be able to take home and use the answers and methods discussed in this course. Course Objectives: Upon completion of the course, participants will gain a good understanding of the physical basis, geologic expression and petrophysical calibration of seismic attributes. Participants’ Profile: •  Seismic interpreters who wish to extract more information from their data. •  Seismic processors and imagers who wish to learn how their efforts impact subtle stratigraphic and fracture plays •  Sedimentologists, stratigraphers and structural geologists who use large 3D seismic volumes to interpret their plays within a regional, basin-wide context •  Reservoir engineers whose work is based on detailed 3D reservoir models and whose data are used to calibrate indirect measures of reservoir permeability.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Fundamentals of Seismic Acquisition and Processing * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Seismic Diffraction *

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Jeffrey D. Johnson, NExT/Schlumberger TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course Description: The course introduces E&P professionals to basic concepts and principles of seismic data acquisition and processing that affect interpretation. Learning objectives are at basic awareness and knowledge levels. Emphasis is on practical understanding of seismic acquisition, processing, imaging and data requirements for extraction of geological and petrophysical information. Course Objectives: Upon completion of the course, participants will be able to: •  Classify the types of seismic methods used in E&P and their role in reservoir business •  Understand the basic principles of seismic wave propagation •  Understand vertical and horizontal resolution of seismic data and factors that affect seismic amplitudes •  Understand principles of marine and land seismic acquisition •  Explain the difference between seismic data and noise •  Determine the basic parameters that are used in the design of 3D seismic surveys •  Identify the major components of land and marine seismic data acquisition operations •  Identify and understand the basic steps required to process seismic data •  Understand how seismic data is transformed into 3D time or depth images •  Understand some unique requirements of data used in special seismic techniques such as inversion, attributes, AVO, multicomponent and 4D methods. Participants’ Profile: Entry level geophysicists as well as more experienced geologists and engineers who need awareness of seismic methods, data and applications. The course is especially appropriate for G&G staff who interpret seismic data.

Duration: two-day CPD Points: 10 Course Level: Foundation Instructors: Evgeny Landa, OPERA – Applied Geophysical Research Group Tijmen Jan Moser, Moser Geophysical Services PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Diffractions have been identified as the key seismic manifestation of fractures and other small-scale reservoir heterogeneities. This two-day course, which was revised in the beginning of 2014, will present the current stateof-the-art of diffraction technology and put this in context by a review of its past developments. The course will cover both forward diffraction modeling and diffraction imaging. Case studies of diffraction imaging will be presented covering applications in seismic exploration and other areas of geoscientific interest. Course Objectives: The course will be clearly structured in topics and subtopics to be covered. At the end of each topic, a number of bullet points will summarize the items meant to be memorized and taken home by the learner. Interaction between the teacher and learner will be encouraged. The course material will be exemplified by out-of-the box examples demonstrating diffraction phenomena and supporting the techniques. By the end of this course, the participant will: have a detailed and up-to-date understanding of the physics of diffractions, diffraction modeling and imaging be able to effectively communicate the key aspects of diffraction technology with other professionals have a good understanding of the added value that seismic diffraction brings to current exploration and production projects. Participants’ Profile: The target audience of the course consists in geoscientists from industry and academia with a basic knowledge of seismic processing and an interest in innovative interpretation technologies.

Prerequisites: Participants should have knowledge of basic ­petroleum and reservoir geology.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

17

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Microseismic Monitoring in Oil and Gas Reservoirs * GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS

GEOLOGY

RESERVOIR AND MINING PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND CROSS DISCIPLINE DEVELOPMENT

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

CROSS MININGDISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

Duration: two-day CPD Points: 10 Course level: Foundation Instructor: Leo Eisner Company: Institute of Rock Structure and Mechanics Course description: The goal of this class is to explain the principles of microseismic monitoring ranging from single monitoring borehole to surface and near-surface networks. This class focuses on understanding the measurements made in passive seismic, their use and their uncertainties. Case studies will be used that provide important insights. Attendees should be able to design, use the right kind of processing and understand the uncertainties in microseismicity and its application. The goal is to understand how to avoid interpretation of uncertain observations and gain insight into true information provided by microseismicity. No specific background is needed, although knowledge of hydraulic fracturing and seismology could be beneficial. The course will also discuss the latest developments in microseismic applications from source mechanisms, through anisotropy to reservoir simulations, including pore pressure analysis. The course concludes with a discussion on the social and scientific aspects of (induced) seismicity related to oil and gas reservoirs. TRAINING AND DEVELOPMENT

OTHER

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Applications of Seismic Anisotropy in the Oil and Gas Industry (OTE 3) *

MINING

NEAR SURFACE

NEAR SURFACE OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

Course objectives: •  Design an optimal array for passive seismic (surface or downhole) monitoring estimate uncertainties of locations for microseismic events. •  Orient downhole geophones from a perforation or calibration shot, estimate approximate distance and depth of a recorded microseismic event. •  Determine the epicentre from a surface monitoring array and estimate source mechanisms of visible microseismic events. •  Determine if the seismicity in the vicinity of an oilfield is related to injection or extraction of fluids

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Vladimir Grechka, Marathon Oil Corporation TRAINING AND DEVELOPMENT

OTHER

Course Description: Elastic anisotropy can strongly influence seismic data. This course discusses modeling, inversion and processing of seismic reflection and VSP data in the presence of anisotropy. The most critical step in extending existing processing techniques to anisotropic media is to identify and estimate the medium parameters responsible for measured seismic signatures. Course Objectives: Upon completion of the course, participants will be able to understand that: •  Seismic anisotropy is a real feature of the subsurface. It is caused by a number of factors (e.g., lithology, fractures, fine layering) that can be quantified, leading to a better characterization of the subsurface. •  Any attempt of extracting more information from seismic data necessitates taking anisotropy into account. •  There exist established techniques for estimating anisotropy from seismic data. Participants’ Profile: Geophysicists who want to enhance their understanding of the subsurface and learn about modern techniques for extracting more information from seismic data.

Participants’ Profile: This course is designed for users and practitioners in microseismic monitoring Prerequisites: Knowledge of  seismology is useful but not necessary

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

18 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Beyond Conventional Seismic Imaging (OTE 1) * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Broadband Technology

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Evgeny Landa, OPERA – Applied Geophysical ­Research Group TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course Description: Imaging in the time domain still remains an important processing and interpretation tool. Moreover, for complex models that request the use of prestack depth migration, time imaging usually constitutes a key first step. The proposed course discusses: •  time-imaging procedures (Multifocusing and Common Reflection Surface) when each image trace is constructed by stacking traces not belonging to the same CMP gather; •  diffraction imaging based on scattered rather than reflected energy with an aim to image small-scale seismic objects including fractures; •  imaging without precise knowledge of the subsurface velocity model based on an analogy to the Feynman path integral. Course Objectives: The course presents a new vision on modern seismic data processing and imaging and discusses its advantages and limitations. It describes a wide range of emerging technologies (besides depth migration and full-waveform inversion) aimed to increase reliability and resolution of the seismic method.

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Robert Soubaras, CGG TRAINING AND DEVELOPMENT

OTHER

Course Description: This one-day course is intended to explain how, by combining advances in equipment, acquisition design and processing, the bandwidth of marine seismic images has been increased recently from 3 to 6 octaves. The course starts with a theoretical part that provides a unified framework allowing to cover the theory of the various marine broadband methods that are currently used (over-under, dual sensor, variable-depth), with the aid of synthetic examples as well as real data results based on the variable-depth streamer method. After the specific receiver deghostings are addressed, other processing steps that have to be adapted to broadband data are described. Course Objectives: The course is intended to give an adequate background to understand the problems involved in broadband marine acquisition and processing. Participants’ Profile: The course is mainly designed for research or processing geophysicists although anybody involved in marine seismic may be interested in certain parts of the course. Prerequisites: Participants should have knowledge of signal processing and geophysical processing.

Participants’ Profile: The course can be interesting for geophysicists working in data processing and imaging as well as for researchers and developers of new procedures for seismic imaging, wavefield parameter estimation and velocity model building. Prerequisites: Basic knowledge of seismic data acquisition and processing, static correction, CMP stacking for zero-offset approximation, normal moveout (NMO) correction, velocity analysis, semblance coherency measure, dip moveout and the ray theory.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

19

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Integrated Seismic Acquisition and Processing

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Overview of EM Methods with a Focus on the Multi-Transient Electromagnetic (MTEM) Method *

MINING

CROSS DISCIPLINE

Duration: one-day or two-day CPD Points: 5 or 10 Course Level: Intermediate Instructor: Jack Bouska, Independent Consultant TRAINING AND DEVELOPMENT

NEAR SURFACE

DRILLING

GEOCHEMISTRY

GEOLOGY

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

NEAR SURFACE

Course Description: This course covers modern techniques in 3D seismic acquisition, from the perspective of seismic as an integrated system comprising: acquisition design, field operations, data processing, imaging and interpretation. This course will review the basics of 3D survey design, with an emphasis on how practical aspects of interpretation, data processing, imaging and/or field operations can constrain. Course Objectives: Upon completion of the course, participants will be able to have a better understanding of the selection process for basic survey design parameters and how those parameter choices affect acquisition operations, data processing and the quality of the final image volume.

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Bruce Hobbs, PGS EM TRAINING AND DEVELOPMENT

OTHER

Course Description: Following a brief summary of electromagnetic methods for exploration, the theoretical basis of the new MTEM method is presented together with practical methods of data acquisition and processing. Modeling and inversion for this new method are described and land and marine case studies are presented. Course Objectives: Upon completion of the course, participants will be able to understand the contribution that MTEM technology can make to appraisals and the workflow in exploration and monitoring. Participants’ Profile: All geoscientists.

Participants’ Profile: •  Seismic acquisition specialists, who wish to learn how to design cost effective acquisition programs that take advantage of modern state-of-the-art processing and imaging techniques. •  Seismic processing specialists, who wish to learn some novel processing techniques to overcome perceived limitations in acquisition geometries •  Seismic interpreters who wish to know more about both of the above!

Prerequisites: Participants should have knowledge of basic science.

Prerequisites: Participants are assumed to possess a working knowledge of the seismic method and its use in exploration and reservoir management.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

20 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Time-Lapse Seismic: A Multidisciplinary Tool for Effective Reservoir Management *

CROSS DISCIPLINE

GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

NEAR SURFACE DRILLING GEOLOGY

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

OTHER

Course Description: Geophysical Monitoring of reservoirs relies on frequent time-lapse observations with high survey repeatability. This technology is a key enabler for maximizing the oil recovery of oil and gas fields. The GRM technology aims at understanding and updating the knowledge of producing reservoirs. This is achieved through mapping the movement of fluid and pressure fronts and fluid contacts during production and injection. The combination of production monitoring with repeated seismic acquisition and geological and reservoir information provides reliable estimates of static and dynamic reservoir parameters. Course Objectives: The purpose of this course is to provide an overview of the importance and the benefit of time-lapse seismic. The course will also cover challenges in understanding the 4D responses and value creation. Finally we will look at how we push the GRM technology towards higher use of quantitative results. Participants’ Profile: This course should be of interest to managers, geoscientists, reservoir and petroleum engineers with interest in reservoir management and monitoring using timelapse seismic.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Reservoir Geophysics DRILLING

PETROLEUM GEOCHEMISTRY GEOPHYSICS ENGINEERING

GEOCHEMISTRY

PETROPHYSICS GEOLOGY MINING

GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS

MINING

TRAINING AND MINING DEVELOPMENT

OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Bill Abriel, Chevron PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: This course demonstrates how and why geophysics adds value to reservoir management using examples from multiple geological environments (deepwater turbidites, onshore fluvial, near-shore deltaics and carbonates). The instructor examines and illustrates the dependencies of geology and engineering data on geophysical applications during reservoir management and exposes participants to a variety of geophysical tools used in reservoir work. Participants will become familiar with the application and value of geophysics for users (customers) as well as the inherent risks and uncertainties. Participants’ Profile: This course is designed primarily for geophysicists of all backgrounds who are or will be supporting delineation, development and/or production of oil- and gasfields. This includes interpreters, processors, researchers and service employees. The course is predominantly conceptual and graphical showing use by example and no theoretical background in geophysics is required. Therefore, the course is also highly applicable to geologists, engineers and managers engaged in reservoir management of oil- and gasfields and who use, or need to use, geophysics.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

21

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

MINING

Duration: one-day CPD Points: 5 Course level: Intermediate Instructor: Cedric Fayemendy, Statoil TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE EOCHEMISTRY

PETROLEUM GEOLOGY ENGINEERING

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Reservoir Model Design: How to Build Good Reservoir Models GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS

GEOLOGY

RESERVOIR AND MINING PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND CROSS DISCIPLINE DEVELOPMENT

MINING

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructors: Mark Bentley, AGR PS Philip Ringrose, Statoil TRAINING AND DEVELOPMENT

OTHER

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

CROSS MININGDISCIPLINE

TRAINING AND DEVELOPMENT

NEAR SURFACE OTHER

GEOCHEMISTRY

CROSS DISCIPLINE

CROSS DRILLING DISCIPLINE

GEOCHEMISTRY DRILLING

NEAR DRILLING SURFACE

PETROLEUM NEAR SURFACE GEOCHEMISTRY ENGINEERING

PETROPHYSICS PETROLEUM GEOLOGY ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

Course Description: This short course will give an introduction to reservoir model design, covering the following main design elements: •  Model Purpose •  The Rock Model •  The Property Model •  Model Scaling •  Handling Uncertainty In this course, Mark Bentley and Philip Ringrose share their insights into building geological reservoir models, covering clastic and carbonate sedimentary depositional systems, as well as fractured reservoirs. The connection between geology and fluid flow is developed with a focus on designing fit-for-purpose models with consideration of implications for single-phase and multiphase flow and with examples of application to oil and gas reservoirs and to CO2 storage. This is a shorter version of a 5-day course and so is intended as an introduction to the main concepts. Course Objectives: Know how to approach a reservoir modeling task and assess the key design elements – distinguish between ‘good’ and ‘bad’.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

3D Tomography by Active and Passive Seismic Data * GEOCHEMISTRY GEOLOGY

RESERVOIR PETROPHYSICS AND GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS GEOLOGY

TRAINING RESERVOIR AND AND MINING DEVELOPMENT PRODUCTION ENGINEERING

GEOPHYSICS MINING

MINING

TRAINING OTHER AND DEVELOPMENT

OTHER

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Aldo Vesnaver, Petroleum Institute, Abu Dhabi TRAINING AND DEVELOPMENT

OTHER

Course Description: Building a 3D Earth model in depth is needed not only for accurate seismic imaging but also for linking well data (such as logs and cores) and reservoir simulations. Tomography can build a 3D macro-model for P and S velocities that integrates surface and well data, as well as active and passive seismic. This short course will introduce the basic concepts of traveltime inversion keeping all the mathematics at a very basic level. Course Objectives: Participants will be able to appreciate the basic simplicity of tomographic inversion of traveltimes and recognize and avoid pitfalls of its application to real data. Reducing estimation errors, especially when it comes to passive seismic, is a key goal of the course. Several application examples will highlight the impact of these techniques for the industry, highlighting a key role of tomography for integrating surface to borehole and active to passive seismic data. Participants’ Profile: Professionals involved in seismic interpretation and processing, petroleum engineers engaged with reservoir characterization and simulation, graduate students or research scientists. Prerequisites: Participants should have a Bachelor or Master Degree in Geosciences, or a few years of experience in this field.

Participants’ Profile: Geologists, Geophysicists, Petrophysicists or Reservoir Engineers who have or wish to work in multi-disciplinary teams on reservoir development projects. Prerequisites: Participants should have good knowledge of at least one component of multi-disciplinary reservoir modeling: e.g., geological modeling, geostatistics, petrophysics, rock physics or reservoir simulation.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

22 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

CROSS CROSSDISCIPLINE DISCIPLINE

NEAR NEARGEOLOGY SURFACE SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

Microseismicity – A Tool of Reservoir Characterization (OTE 2) DRILLING DRILLING

PETROLEUM PETROLEUM GEOPHYSICS ENGINEERING ENGINEERING

GEOCHEMISTRY GEOCHEMISTRY

PETROPHYSICS PETROPHYSICS MINING

GEOLOGY GEOLOGY

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

GEOPHYSICS GEOPHYSICS

MINING MINING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

CROSS DISCIPLINE

DRILLING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Serge Shapiro, Freie Universitaet Berlin TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

PETROLEUM ENGINEERING

CROSS DISCIPLINE

NEAR SURFACE GEOCHEMISTRY

PETROPHYSICS

GEOCHEMISTRY

DRILLING

PETROLEUM CROSS DISCIPLINE GEOLOGY ENGINEERING

NEAR RESERVOIR SURFACEAND PRODUCTION ENGINEERING

Course Description: Borehole fluid injections are typical for stimulation of hydrocarbon reservoirs including tight gas sands, oil shales and heavy oils. They are also standard for development of enhanced geothermal systems. The fact that fluid injection causes seismicity has been well-established for several decades. Understanding and monitoring of fluid-induced seismicity can help us to characterize reservoirs and to estimate results of their stimulations. This course provides a systematic introduction into a quantitative description of fluid induced microseismicity. The course includes elements of the earthquake physics, geomechanics, rock physics and poromechanics. It establishes a clear relation between the passive microseismic monitoring on one hand and the rock physics and reservoir characterization on the other hand. Real data examples related to hydraulic fracturing and reservoir stimulation are broadly used and discussed. Participants’ Profile: Geophysicists, geologists, petrophysicists, reservoir engineers, graduate and postgraduate students, researchers, interpreters and other persons involved in geosciences. Prerequisites: Participants should have basic knowledge of physics, mathematics and geological sciences.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

A Short Course in Modern Seismic Inversion Techniques GEOCHEMISTRY

PETROPHYSICS DRILLING GEOPHYSICS

GEOLOGY

RESERVOIR AND GEOCHEMISTRY MINING PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING GEOLOGYAND DEVELOPMENT

MINING

OTHER GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Nick Pillar, Canadian Overseas Petroleum Ltd PETROLEUM TRAINING AND ENGINEERING DEVELOPMENT

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course will present, in simple terms, the principles of different techniques and types of inversion while pointing out their respective merits and limitations. This will be illustrated with examples and a ‘hands-on’ inversion will be undertaken by the participants. Course Objectives: Upon completion, participants will have a vastly improved understanding of modern inversion techniques used by geoscientists in oil and service companies. They will also understand how and why these techniques should be used, whether it is for exploration or reservoir characterization purposes. The student will be able to either carry out an inversion project or at least be able to competently supervise the execution of a project by a contractor or service company. Participants’ Profile: The course is aimed at geoscientists involved in exploration and production projects where inversion of seismic data plays a role and who wish to: •  Learn more about modern seismic inversion concepts and the terminology used by inversion experts •  Improve their critical view on the benefits and limitations of inversion techniques •  Gain an understanding of the detailed workflow required to achieve an optimal inversion result •  Be able to carry out an inversion themselves or be able to critically supervise an inversion carried out by an oil or service company Prerequisites: The course can be understood by geoscientists with a limited mathematical background. Physical concepts are presented without equations but with a significant amount of simple schemes and graphical illustrations. A comprehensive list of references will be given in the course notes for those who are interested in more rigorous and mathematical approaches.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

23

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Geophysical Monitoring of CO2 Storage *

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

MINING

OTHER

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

Course Description: The course discusses various methods for monitoring subsurface injection of CO2. Specifically, the following topics will be covered: •  Rock physics related to injection of CO2 into a porous rock •  Time-lapse seismic methods •  Gravity and electromagnetic methods •  Saturation and pressure effects •  Early detection of leakage •  Mapping overburden geology and identification of ­potential weakness zones •  Field examples •  Well integrity issues •  Using gas leakage as a proxy to study potential leakage of CO2 •  Laboratory experiments of CO2 flooding including acoustic measurements Course Objectives: Upon completion of the course, participants will be able to understand the possibilities and challenges related to geophysical monitoring of a CO2 injection process. Participants’ Profile: The course is designed for geoscientists working in oil companies, service companies and research organizations. Prerequisites: Participants should have knowledge of basic geophysics and some geology.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

24 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Geophysics Under Stress: Geomechanical Applications of Seismic and Borehole Acoustic Waves

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Martin Landro, Norwegian University of Science and Technology TRAINING AND DEVELOPMENT

NEAR SURFACE

GEOPHYSICS

MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Colin Sayers, Schlumberger TRAINING AND DEVELOPMENT

OTHER

Course Description: The state of stress within the Earth has a profound effect on the propagation of seismic and borehole acoustic waves and this leads to many important applications of elastic waves for solving problems in petroleum geomechanics. The purpose of this course is to provide an overview of the sensitivity of elastic waves in the Earth to the in-situ stress, pore pressure and anisotropy of the rock fabric resulting from the depositional and stress history of the rock and to introduce some of the applications of this sensitivity. The course will provide the basis for applying geophysics and rock physics solutions to geomechanical challenges in exploration, drilling and production. A variety of applications and real data examples will be presented and particular emphasis will be placed on the rock physics basis underlying the use of geophysical data for solving geomechanical problems. This course is an extended version of the a SEG/EAGE DISC 2010 course. Course Objectives: Upon completion of the course, participants will have an understanding of the sensitivity of elastic waves in the earth to mineralogy, porosity, pore shapes, pore fluids, pore pressures, stresses, the anisotropy of the rock fabric resulting from the depositional and stress history of the rock and know how to use this understanding in quantitative interpretation of seismic data and in the construction of mechanical earth models. Participants’ Profile: This course is suitable for individuals from all subsurface disciplines including geophysics, geomechanics, rock physics, petrophysics, geology, geomodeling and drilling and reservoir and petroleum engineering. The course presentation does not require a theoretical background and can be attended by a broad section of working geoscientists and engineers interested in applying geophysical data to the solution of geomechanical problems.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Processing, Inversion and Reconstruction of Seismic Data GEOLOGY

GEOPHYSICS

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Mauricio Sacchi, University of Alberta TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Seismic Imaging and Velocity Model Building: A Review of Techniques, Respective Merits and Limitations (EET 4) *

MINING

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION ENGINEERING

NEAR SURFACE

DRILLING

GEOCHEMISTRY

GEOLOGY

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

NEAR SURFACE

Course Description: This course covers the theoretical and practical aspects of the signal theory and inverse problems with application to seismic data processing. In particular, the course stresses regularization methods for inverse problems that arise in the inversion of seismic data, noise elimination and reconstruction of seismic surveys. Course Objectives: Upon completion of the course, participants will be able to: •  Understand regularization methods for the solution of inverse problems that arise in seismic data processing. •  Understand the trade-off arising in processing and inversion •  Discover that most problems in seismic data processing can be formulated as linear inversion problems. In particular, the design of transforms for noise reduction and regularization methods for reconstruction of 5D data can also be posed as inverse problems •  Make connections between problems pertaining to inversion (deconvolution, AVO, transform design) and modern methods for multi-dimensional signal recovery and reconstruction. Participants’ Profile: The course is intended for geophysicists working in data processing, R&D and for people with an interest in understanding current and emerging technologies for seismic data processing. We will explore methods to solve inverse problems and how they can be used in signal processing for noise removal, resolution enhancement and data preconditioning including regularization and interpolation. Prerequisites: Participants should have basic knowledge of linear algebra and DSP.

GEOPHYSICS

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Etienne Robein, ERT TRAINING AND DEVELOPMENT

OTHER

Course Description: As the search for new resources means that we are forced to maximize the production of discovered reservoirs and explore new ones in domains that are increasingly complex, seismic imaging is becoming more and more important as a tool. The course presents the current techniques used to produce accurate images of the subsurface. Their respective pros and cons are inferred from their principles and illustrated by synthetic and real cases that are discussed with attendees. Special emphasis is placed on anisotropic velocity model building using either rays or wavefield extrapolation. The impact of recent developments in data acquisition is explained and illustrated. Course Objectives: Upon completion of the course, participants will be able to: •  Evaluate the potential value of the principal techniques used in seismic imaging •  Understand differences between time- and depth-processing and select the best option for a given problem •  Be aware of key steps and issues in building anisotropic depth velocity models •  Understand the complementarity between ray-based and wavefield extrapolation-based velocity model building •  Be aware of the potential value and issues in full-waveform inversion Participants’ Profile: The course is aimed at geoscientists involved in exploration and production projects where seismics play a role and who wish to: •  learn more about seismic imaging concepts and the terminology used by seismic processors; •  improve their critical view on seismic data sets; •  have a well-argued selection of the imaging method to apply to the seismic data shot for their projects; •  have a better appreciation of issues and solutions in anisotropic velocity model building Prerequisites: The course can be understood by geoscientists with a moderate mathematical background.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

25

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Seismic Multiple Removal Techniques: Past, Present and Future (EET 1) * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Seismic Sequence Stratigraphy *

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

GEOPHYSICS

MINING

MINING

Duration: two-day (optionally one-day) CPD Points: 10 Course Level: Intermediate Instructor: Eric Verschuur, Delft University of Technology TRAINING AND DEVELOPMENT

OTHER

Course Description: This course provides an overview of the techniques in seismic multiple removal, starting with the deconvolution-based methods from the 1960s, via the moveout discrimination techniques of the 1980s and ending up with wave-equation based methods from the 1990s and their 3D extensions as developed in the 2000s. Finally, an outlook is given on the future directions of this topic, where we see that multiples will become part of the signal and are not being considered as noise. Course Objectives: Upon completion of the course, participants will be able to: •  Understand the most common techniques for multiple removal, including some of their mathematical background. •  Gain some insight into their applicability, to be helpful for future seismic projects •  Become inspired to conduct research in this area. Participants’ Profile: The target audience is composed of people involved in seismic processing, imaging and inversion. The mathematical content is kept to a minimum level with a strong link with the involved physical concepts, amplified by graphical illustrations. The audience is expected to have prior knowledge at a B.Sc. / M.Sc. level on processing concepts such as convolution, correlation and Fourier transforms and some basic knowledge on wave theory.

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Klaus Fischer, Wintershall PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course gives a general introduction to the method of sequence stratigraphy with a special focus on seismic stratigraphy. It gives a detailed overview on the methods of seismic sequence analysis, their merits and limitations. The methodology of seismic facies analysis and its potential use for facies prediction in the subsurface is explained. The course focuses on the practical application of the seismic stratigraphic interpretation method and gives an overview of a variety of potential tools available in modern interpretation systems that can be used within the workflow in order to support the interpreter. Course Objectives: The course objective is to communicate sequence stratigraphic principles and demonstrate their relevance to seismic interpretation. A basic workflow will be presented for seismic stratigraphic interpretation and basin evolution analysis, using case histories and field examples worldwide. Participants’ Profile: Geologists/geophysicists involved in seismic interpretation for basin analysis/exploration/production and also for reservoir engineers who need more in-depth knowledge on the seismic expression of flow units and depositional environments. Prerequisites: Participants should have a basic understanding of geology and depositional systems, as well as of the reflection seismic method.

Prerequisites: Participants should have knowledge of: •  Basic signal processing (convolution, correlation, Fourier transform) •  Basic seismic processing (preprocessing, imaging) •  Basic acoustic wave equation and wave propagation

Watch a brief e-lecture of this course online!

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

26 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

xplorational Rock Physics and Seismic E Reservoir Prediction * CROSS DISCIPLINE

EOCHEMISTRY S DISCIPLINE

DRILLING GEOLOGY

AR ETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructors: Per Avseth, Tullow Oil Norge Tor Arne Johansen, University of Bergen PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

CROSS MININGDISCIPLINE

NEAR SURFACE OTHER

NEAR DRILLING SURFACE

PETROLEUM ENGINEERING

DRILLING

GEOCHEMISTRY

GEOCHEMISTRY

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROPHYSICS

PETROPHYSICS GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

Course Description: This course covers the fundamentals of rock physics, ranging from basic laboratory and theoretical results to practical recipes that can be immediately applied in the field. We will present qualitative and quantitative tools for understanding and predicting the effects of lithology, pore fluid types and saturation, stress and pore pressure, fractures and temperature on seismic velocity and attenuation. Moreover, we will show the importance and benefit of linking rock physics to geologic processes, including depositional and compactional trends. We further document that lithology substitution can be as equally important as fluid substitution during seismic reservoir prediction. It is important in exploration and appraisal to extrapolate away from existing wells, taking into account how the depositional environment changes as well as burial depth trends. In this way rock physics can better constrain the geophysical inversion and classification problem in underexplored marginal fields, surrounding satellite areas, or in new frontiers. Course Objectives: The ultimate goal is to improve the understanding of seismic amplitudes and predict geologic and reservoir parameters from seismic inversion data. Upon completion, participants will able to: •  Understand the link between geologic processes and rock physics properties •  Understand pore fluid / rock interactions during wave propagation •  Understand upscaling and heterogeneous reservoirs •  Comprehend shale and carbonate rock physics •  Build your own rock physics template Participants’ Profile: The course is intended for geophysicists, geologists and petrophysicists who are involved in quantitative seismic interpretation, both within exploration and production.

Watch a brief e-lecture of this course online!

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

Seismic Reservoir Characterization: An Earth Modeling Perspective (EET 2) * GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND CROSS MINING DISCIPLINE DEVELOPMENT

MINING

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Philippe Doyen, CGG TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

MINING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course reviews best practices and future challenges for constraining Earth models with seismic information. Topics covered include the construction of stratigraphic grids from interpreted seismic horizons and faults, deterministic and stochastic elastic inversion, cascaded petrophysical inversion, use of seismic geostatistics and rock physics to predict reservoir properties such as lithology and pore fluids, uncertainty propagation techniques, building of geomechanical Earth models for seismic Pp prediction and 4D Earth model generation for seismic monitoring applications. Course Objectives: The course will address the following: •  What seismic inversion techniques should be used to obtain reliable estimates of elastic properties for reservoir modeling applications •  How to condition the seismic data prior to inversion •  When to use deterministic or stochastic inversion •  How to integrate inverted seismic data in a geocellular ­reservoir model •  How to combine seismic rock physics and geostatistics to ­predict reservoir properties from seismic attributes •  How to cascade elastic and petrophysical inversions and constrain a fine-scale Earth model with band-limited seismic data •  How to model uncertainty in seismic rock property prediction and when we need to model the overburden, not just the reservoir interval •  The key challenges in building ‘4D Earth models’ for seismic monitoring applications •  How to conduct 4D feasibility studies from flow simulator outputs and calculate 3D and 4D synthetics from static and dynamic reservoir models •  How to handle grid-to-grid resampling operations required to move data back and forth between seismic cubes, geo-models and flow simulation grids

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

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Participants’ Profile: Geoscientists and engineers who wish to learn about practical techniques for seismic data integration, combined use of seismic rock physics and geostatistics, uncertainty modeling and quantitative 4D interpretation.

CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

F ull-Waveform Inversion for High-Resolution Reservoir Characterization *

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

GEOCHEMISTRY

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Migration, DMO and Velocity Model Building CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

DRILLING GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Dries Gisolf, Delft University of Technology TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

GEOCHEMISTRY GEOPHYSICS

GEOLOGY MINING

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Piet Gerritsma, Gerritsma Geophysical Training and Consultancy PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The purpose of this course is to teach participants the fundamentals of extracting quantitative property information from seismic data. In the end this leads to an inversion process, which is called linear if the data are supposed to consist in primaries only and is called non-linear if all multiple scattering and multiple mode conversion over a target interval (typically 500 m around the reservoir) is taken into account. Non-linear inversion leads to a higher resolution than obtained from conventional linear inversion techniques. Finally, linear and non-linear inversions at the reservoir scale are demonstrated by highly realistic synthetic reservoir models and real data case studies.

Course Description: The process of migration, whereby a proper image in time or depth of the subsurface is obtained, is directly related with the velocity model that both serves as input for the migration process as well as being the result of such a migration. Therefore migration and velocity model building are intimately related processes. DMO (dip moveout) can be considered as an intermediate process; it contains elements of migration and can be used in velocity model building. The implementation of migration is characterized by a multitude of methods and algorithms; there is also a great variety of methods to build a velocity model. This course gives an overview of the migration principles, methods and algorithms, an overview of velocity model building principles and methods and algorithms including the application of DMO.

Course Objectives: Upon completion of the course, participants will be able to: •  Understand what quantitative property information is contained in seismic data and how to extract it. •  Make better judgments as to what inversion method to apply to what problem. •  Adopt a more quantitative approach to seismic-to-well matching and low-frequency background model extraction •  Further the role of reservoir geophysics in multidisciplinary projects.

Course Objectives: Upon completion of the course the participants will have obtained a complete overview and thorough understanding of the many alternative methods and algorithms that are currently in use in imaging and the related processes of DMO and velocity model building. The course emphasizes for each method the underlying geophysical principles together with its assumptions and strengths and weaknesses; many examples will be shown to illustrate the material.

Participants’ Profile: This course is designed for geophysicists active in reservoirs and/or quantitative interpretation. Also processing geophysicists who would like to get involved in quantitative interpretation can attend this course. Prerequisites: •  Basic training in geophysics •  Mathematics in particular complex numbers and integrals

CROSS DISCIPLINE

DRILLING

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GEOLOGY

GEOPHYSICS

MINING

28 NEAR SURFACE

Participants’ Profile: Geophysicists who are involved in seismic data processing and/or are a member of a multidisciplinary team for special studies, like e.g., time-to-depth conversion, AVO, inversion, reserve estimation etc. and those who need such an overview as a starting point for their future work. Prerequisites: Course participants should have a basic understanding of seismic acquisition and processing practices.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

The Principles of Quantitative Acoustical Imaging * GEOLOGY

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

CROSS DISCIPLINE

DRILLING

PETROLEUM GEOLOGY ENGINEERING

CROSS DISCIPLINE

DRILLING

NEAR SURFACE GEOCHEMISTRY

NEAR SURFACE

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PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

OTHER

Course Description: This course presents a systematic approach to imaging of acoustic reflection data and the extraction of media property information from image amplitudes based on wave theory. Although the approach is valid for a wide range of acoustical frequencies and applications, there is a bias towards seismic imaging. Course Objectives: Upon completion of the course, participants should have acquired a good understanding of the fundamental assumptions and limitations of state-of-the-art seismic migration. They will have been made familiar with the steps needed to extract quantitative property information from seismic data. Participants’ Profile: Geophysicists from oil and gas (service) companies, or geophysicists from academia, involved in R&D. Prerequisites: Participants should have a basic understanding of the seismic method and be familiar with mathematical tools like complex numbers and integrals.

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GEOLOGY

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MINING

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4D Seismic for Reservoir Management * GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS

GEOLOGY

RESERVOIR AND MINING PRODUCTION ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Ian Jack, Independent Consultant TRAINING AND DEVELOPMENT

OTHER

Course Description: After a short perspective on the development of 4D seismic from the 1980s to its routine use in mature areas, the course covers the basics of rock and fluid physics. It moves on to describe current best practice and the technical and operational requirements for successful implementation of time-lapse technology whether for hydrocarbon extraction or for CO2 injection. Course Objectives: Upon completion of the course, participants will be able to commission, plan and interpret 4D surveys on land or marine. Participants’ Profile: The course is aimed principally at geoscientists who wish to be able to commission 4D projects or to work with them successfully. It will also be useful for reservoir engineers and petrophysicists and for those who need to steer the direction of seismic technology in their companies. Prerequisites: A scientific discipline. It is not necessary to have a detailed geophysical background.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

NEAR SURFACE

MINING

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Dries Gisolf, Delft University of Technology TRAINING AND DEVELOPMENT

GEOCHEMISTRY

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

CROSS DISCIPLINE

NEARGEOLOGY SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Understanding Seismic Anisotropy in Exploration and Exploitation: Hands On * DRILLING

PETROLEUM GEOPHYSICS ENGINEERING

GEOCHEMISTRY

PETROPHYSICS MINING

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

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Seismic Velocities and Depth Conversion *

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

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PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Leon Thomsen, Delta Geophysics

NEAR SURFACE

OTHER

GEOPHYSICS

CROSS MINING DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: five-day CPD Points: 25 Course Level: Intermediate Instructor: Mac Al-Chalabi, Independent Consultant TRAINING AND DEVELOPMENT

NEAR OTHER SURFACE

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RESERVOIR AND PRODUCTION ENGINEERING

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Course Objectives: This is not a ‘methods course’ but rather a ‘concept course’, familiarizing the students with essential concepts, enabling them to ask the right questions in future conversations, rather than to operate particular software packages.

Course Description: The course provides a thorough exposition of the various types of velocities used in seismic work, their derivation, interrelationships, limitations, accuracy and their correct application (see “Course Contents” sheet). The main focus of the course is on methods of time to depth conversion, their relative merit and correct application to suit various geological conditions, limitations, uncertainties and problems arising. Major principles relating to provelocity modelling for pre- and post-stack processing in the time and depth domains and the relation of such processes to true depthing are covered in detail. Mathematics is kept to a minimum. Emphasis is placed on the meaning and physical significance of the presented material and on practical implementations. Free interactive discussions form an important basis of the course.

Participants’ Profile: Geophysicists should attend who have a working knowledge of conventional exploration geophysics and wonder how it can be that we use isotropic concepts to acquire and analyze data that come from rocks that, after only brief thoughtful consideration, must clearly be anisotropic. The course is particularly important in this era of unconventional resource plays.

Course Objectives: The offered course is intended to build up the standard of the participant to a very high professional level in the field of velocities and depth conversion. The participant should then be able to handle velocities with full competence, rigour and insight for depth conversion purposes and over a wide range of seismic processing and other applications in exploration and production.

Course Description: This course covers all areas of applied seismic anisotropy, with class exercises and ample time for full discussions. Because anisotropy is such a fundamental concept, it covers topics in seismic acquisition, processing, imaging and interpretation, all based on seismic rock physics. It is supported by the Lecture Notes, “Understanding Seismic Anisotropy in Exploration and Exploitation, the 2002 SEG/EAGE Distinguished Instructor Short Course”, with 2nd Edition available in late 2014.

Participants’ Profile: The course is designed in a flexible manner so as to meet the demands of the various disciplines of geophysicists, geologists and other earth scientists. Those attending the standard course should ideally possess a minimum of three years of exposure to geophysics, preferably in interpretation and/or processing. The course is presented in an adaptable format to suit the particular group of participants.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

30 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

EOCHEMISTRY

ETROPHYSICS

GEOPHYSICS

CROSS DISCIPLINE

NEARGEOLOGY SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Rock Physics and Computational Geophysics DRILLING

GEOPHYSICS PETROLEUM ENGINEERING

GEOCHEMISTRY

MINING PETROPHYSICS

CROSSGEOLOGY DISCIPLINE

NEAR RESERVOIR SURFACE AND PRODUCTION ENGINEERING

GEOPHYSICS DRILLING

GEOCHEMISTRY MINING

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM TRAINING AND ENGINEERING DEVELOPMENT

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: José M. Carcione TRAINING AND DEVELOPMENT

OTHER

Course description: This course presents the fundamentals of physics and numerical simulation of wave propagation in anisotropic, anelastic and porous media, including the analogy between acoustic waves (in the general sense) and electromagnetic (EM) waves. The emphasis is on geophysical applications for hydrocarbon exploration but researchers in the fields of earthquake seismology, rock physics and material science -- including many branches of acoustics of fluids and solids (acoustics of materials, non-destructive testing, etc.) -- may also find the material useful. Moreover, the course illustrates the use of seismic and EM modeling, with an account of the numerical algorithms for computing synthetic seismograms and radargrams. This includes applications in the field of geophysical prospecting, seismology and rock physics, i.e., evaluation of methane hydrate content, upscaling techniques, detection of overpressure, Antarctic and

GEOCHEMISTRY

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

permafrost exploration, exploration of the Earth’s deep crust, time-lapse for monitoring of CO2 injection, etc. Course objectives: On completion of the course, participants will be able to: •  Understand the physics of seismic (and EM) wave propagation and diffusion fields in real media, such as many types of rocks. •  Solve complex models using numerical methods, e.g., the finite-difference and Fourier techniques. •  Apply the concepts to seismic and EM prospecting, simulation of earthquakes, surface radar applications, EM low-frequency methods for environmental and prospection problems, rock physics, etc. Participant’s profile: The course is useful for geologists, geophysicists, petrophysicists, reservoir engineers, mathematicians and physicists. The emphasis is on geophysical applications for hydrocarbon exploration but researchers in the fields of earthquake seismology, rock acoustics and material science – including many branches of acoustics of fluids and solids (acoustics of materials, nondestructive testing, etc.) – may also find this course useful. Prerequisites: Participants should have knowledge of the basic concepts of wave theory.

Upcoming EAGE Education Tours 2016-2017 EAGE Tours courses are one-day courses on current geoscience hot topics and presented by acknowledged industry experts and academics. EAGE Education Tour (EET) 9: Satellite InSAR Data: Reservoir Monitoring from Space Instructor: Alessandro Ferretti (Tele-Rilevamento Europa) Regions: Middle East, Asia Pacific, Latin and North America EAGE Education Tour (EET) 10: Full Waveform Inversion: Where are the Anisotropic Parameters hiding? Instructor: Tariq Alkhalifah (KAUST) Regions: Europe, Middle East, Asia Pacific, Russia & CIS, Latin & North America EAGE Education Tour (EET) 11: Gravity and Magnetic Methods for Oil & Gas and Mineral Exploration and Production Instructor: Yaoguo Li, (Colorado School of Mines) Regions: Europe, Middle East, Asia Pacific, Russia & CIS, Latin & North America Coming soon: EAGE Education Tour (EET): Borehole-Scale Fracture and Geomechanical Characterizationof Conventional and Unconventional Reservoirs Instructor: Mohammed S. Ameen (Saudi Aramco) Regions: Europe, Middle East, Asia Pacific, Russia & CIS, Latin & North America

If your company is interested in hosting an EET course, please contact EAGE at education@eage.org. www.learninggeoscience.org

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DRILLING

GEOCHEMISTRY

GEOLOGY

EET-V1H 16-17.indd 1

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GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

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PETROPHYSICS

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PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

GEOPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Applied Depth Imaging

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Course objectives: The aim of this course is focused on depth imaging concepts and applications. At the end of the course the participant will be able to: 1. Describe the differences between time and depth imaging; 2. Discuss basic acquisition parameters influencing the quality of seismic images; 3. Differentiate and select between prestack depth migration methods; 4. Recognize the limitations of seismic data to produce optimum seismic images; 5. Describe velocity estimation methods required for specific exploration problems; 6. Explain the impact of velocity anisotropy on the quality of depth images and its effect on the spatial positioning of geological structures and well ties; 7. Define and / or choose depth imaging workflows for specific E&P scenarios;

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Ruben D. Martinez TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course description: Hydrocarbons are increasingly more difficult to find because reservoirs are often located in geologically complex areas. Geological complexity has motivated a significant paradigm shift from time imaging towards the extensive use of seismic depth imaging. Depth imaging improves the definition of the structural and stratigraphic frameworks and provides a better assessment and mitigation of risk in E&P. The goal of this course is for the participant to gain an understanding of the basic concepts and practical aspects used in building velocity models and seismic images in-depth in an intuitive manner. The participant will also be exposed to depth imaging practices currently in use by geophysicists and geoscientists through the description of workflows illustrated with synthetic and field data examples. The theoretical content is kept to a minimum in order to emphasize the practical aspects.

Participant’s profile: This course is designed for geophysicists, geoscientists and time processing and interpretation specialists seeking a practical understanding of depth velocity model building and imaging Prerequisites: It is desirable that the participants have basic knowledge about seismic acquisition, processing and interpretation. Some fundamental comprehension of structural geology, stratigraphy and well logging is also desirable but not required.

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hin Anatoly M. Nikis shev Nikolay A. Maly v Eugene I. Petro

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RESERVOIR AND PRODUCTION ENGINEERING

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EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Borehole-Scale Fracture and Geomechanical Characterization of Conventional and Unconventional Reservoirs DRILLING

PETROLEUM NGINEERING

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NEAR PETROPHYSICS SURFACE

DRILLING GEOLOGY

GEOCHEMISTRY GEOPHYSICS

CROSSGEOLOGY DISCIPLINE MINING

DRILLING GEOPHYSICS

GEOCHEMISTRY MINING

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GEOPHYSICS

PETROPHYSICS TRAINING AND DEVELOPMENT

NEAR RESERVOIR SURFACE OTHERAND PRODUCTION ENGINEERING

PETROLEUM TRAINING AND ENGINEERING DEVELOPMENT

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

DRILLING DRILLING

GEOCHEMISTRY GEOCHEMISTRY

NEAR NEARSURFACE SURFACE

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PETROPHYSICS PETROPHYSICS

OTHER

Course Description: The course deals with the principles, methods and procedures for fracture and geomechanical characterization from borehole based data. There will be a particular focus on the application of cores and borehole images to the subject, through case studies. Attendees are encouraged to bring examples of issues they face from their prospects/fields. Course Objectives: •  Introduce the basic principles of stress, strain and deformation •  Define fractures and fracture characterization from geological and geomechanical points of view •  Outline the tools and methods used to detect, diagnose and assess the fractures from borehole scale data, particularly core and borehole images. •  Outline the methods used to assess the current day principal stresses •  Discuss the uncertainties associated with the above tools/ methods •  Demonstrate examples of applications of the boreholebased characterization to hydrocarbon exploration and development in both conventional and unconventional plays and reservoirs. Participants’ Profile: Geologists, geophysicists, engineers, and managers who deal with: •  Fracture characterization, or manage reservoirs where natural fractures and geomechanics may have an impact on reservoir performance. •  Unconventional exploration and development where geomechanics and natural fractures are essential in well planning, placement and completion e.g. hydrofracturing. •  Geotechnical projects where fractures and geomechanics are considered of crucial impact. •  Environmental impact of fractures e.g. seismic hazards assessment, hazardous waste disposal •  Alternative energy e.g. geothermal energy.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

Shale Gas, CBM and UCG: How Unconventional! * GEOLOGY GEOLOGY

CROSS DISCIPLINE GEOPHYSICS GEOPHYSICS

DRILLING MINING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course level: Intermediate Instructor: Peter Styles, Keele University RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

NEAR SURFACE TRAINING TRAINING AND AND DEVELOPMENT DEVELOPMENT

PETROLEUM OTHER OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The geoscience of, exploration for and appraisal of shale gas and other unconventionals. Hydrofracturing and the issues that arise for groundwater and induced seismicity. Permitting and regulation of unconventional hydrocarbon resources. Course Objectives: •  To introduce the participant to the potential of unconventional gas (and oil). •  To give an appreciation of the differences in exploration for and evaluation of shale gas and other unconventional resources and the processes required to extract it. •  To understand hydrofracturing geomechanically, ­hydrogeologically and environmentally. •  To explore the environmental constraints with respect to groundwater atmosphere and public disruption from the process or induced seismicity. •  To understand public and regulator concerns and how these might be allayed through process transparency and regulatory frameworks. The participant should leave the course with a foundational understanding of value-adding shale gas resource practices and an insight into determining the critical reservoir parameters used to predict a potential commercial resource play. Participants’ Profile: This course is addressed to a wide audience from geoscientists to petrophysicists, from managers to engineers who are interested in having a good understanding of the shale gas topic and its challenges. Prerequisites: No prior knowledge is required apart from a general appreciation of geological processes and their application in conventional hydrocarbon exploration and production.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

33

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

MINING

Duration: one-day CPD Points: 5 Course level: Foundation Instructor: Mohammed Ameen, Saudi Aramco RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

CROSS CROSSDISCIPLINE DISCIPLINE

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

Principles and Applications of Petroleum System Analysis

PETROLEUM ENGINEERING

CROSS DISCIPLINE

NEAR SURFACE CROSS DISCIPLINE

DRILLING

PETROLEUM NGINEERING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR PETROPHYSICS SURFACE

DRILLING GEOLOGY

GEOCHEMISTRY GEOPHYSICS

CROSSGEOLOGY DISCIPLINE MINING

DRILLING GEOPHYSICS

GEOCHEMISTRY MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructors: Andrew Bell, Shell Peter Nederlof, Consultant RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

NEAR RESERVOIR SURFACE OTHERAND PRODUCTION ENGINEERING

PETROLEUM TRAINING AND ENGINEERING DEVELOPMENT

PETROPHYSICS OTHER

GEOLOGY

GEOPHYSICS

TRAINING AND DEVELOPMENT

GEOCHEMISTRY

PETROLEUM DRILLING ENGINEERING

PETROPHYSICS GEOCHEMISTRY

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Geology for Non-Geologists * GEOLOGY

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOPHYSICS DEVELOPMENT

MINING

OTHER CROSS DISCIPLINE MINING

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

MINING

NEAR SURFACE

RESERVOIR AND PRODUCTION ENGINEERING

DRILLING

GEOCHEMISTRY

PETROLEUM ENGINEERING

PETROPHYSICS

OTHER

Course Description: This two-day course will investigate an entire petroleum system from the preservation of organic matter and the deposition of source rocks, to the generation and entrapment of oil and gas in the reservoir. Alteration of hydrocarbons through in-reservoir processes such as biodegradation, oil-to-gas cracking and thermochemical sulfate reduction will also be discussed in detail. The integration of source rock evaluation, hydrocarbon fluid analysis and basin modeling is brought together in the concept of petroleum system analysis. Several case histories will be shown to illustrate the concept. New developments in operational geochemistry and geochemical well evaluations will also be discussed as part of this course. Advanced mud-logging techniques, such as methane carbon isotope logging, will be discussed and their relevance to petroleum system analysis will be illustrated with case histories. The course will be concluded with a section on the molecular chemistry of oil and gas and the application in reservoir geochemistry and production allocation. Course Objectives: Upon completion of the course, participants will have an understanding of: •  the elements and processes necessary for the formation of hydrocarbon accumulation in the subsurface •  the purpose of basin modeling and how to calibrate a basin model with petrophysical and geochemical data •  source rock evaluation and how geochemical analyses assist the evaluation of unconventional hydrocarbon plays •  designing a geochemical evaluation program for a new and existing well.

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: George Bertram, Stratigraphic Research Int. RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course comprises a series of talks on the fundamentals of geology interspersed with short practical exercises and discussions. The objective of the course is to introduce attendees to the science of geology with a particular emphasis on its application to exploration for hydrocarbons. Course Objectives: Upon completion of the course, participants will be able to: •  Understand basic geological concepts, principles and ­terminology •  Appreciate the role of geology in the hydrocarbon ­exploration industry Participants’ Profile: This course is principally intended for geophysicists who have no background in geology but it should be of value to all technologists working in the hydrocarbon industry who interact with geologists. Prerequisites: Participants should have an understanding of basic scientific principles and an interest in finding out more about geology.

Participants’ Profile: This course is targeted towards earth scientists, engineers, economists and managers who need to be conscious of source rock evaluation, charge prediction and geochemical well evaluations Prerequisites: The course assumes knowledge of basic geology. An understanding of basic chemistry will be an advantage, although not required.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

34 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Pragmatic Sequence Stratigraphy * DRILLING

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

GEOLOGY

GEOPHYSICS

CROSS CROSSDISCIPLINE DISCIPLINE

TRAINING AND DEVELOPMENT

More from Seismic – A Workshop on Seismic Stratigraphic Techniques * DRILLING DRILLING

GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS

OTHER

NEAR NEARSURFACE SURFACE

Course Description: Sequence stratigraphy is now a well-established analytical tool for investigating sedimentary successions, with the aim of predicting the distribution of reservoir, source rock and seal lithologies. Over the last 20 years, concepts that were originally developed from seismic reflection data have been refined by application to wireline-log, core and reservoir production data sets. Course Objectives: Upon completion of the course, participants will be able to: •  Explain the concepts of sequence stratigraphy and their ­application to a wide range of subsurface data types ­(seismic, well-log, core, reservoir production data). •  Illustrate pragmatic, fit-for-purpose approaches to sequence stratigraphic interpretation. Participants’ Profile: The course is designed for geoscientists who wish to learn more about current sequence stratigraphic concepts and models and to apply them to exploration and production projects. The course will also benefit Master- and Doctoral-level students. Prerequisites: Participants should have knowledge of basic sedimentology and petroleum geology.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

GEOLOGY GEOLOGY

GEOPHYSICS GEOPHYSICS

MINING MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: George Bertram, Stratigraphic Research Int. RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course Description: The course comprises a suite of introductory talks on ‘tools and techniques’ interspersed by interpretation exercises. The seismic exercise data come from a number of different basins with differing tectonic and stratigraphic histories. Much of the learning comes from class discussions and debates on the strengths and weaknesses of alternative interpretations. Course Objectives: Upon completion of the course, participants will be able to: •  Understand the principles of seismic stratigraphy and apply them to the interpretation of seismic data. •  Use seismic data to decipher basin evolution. •  Apply techniques and ‘rules of thumb’ for lithological ­prediction using seismic facies variations, reflection ­geometries and geological models. Participants’ Profile: Geoscientists, geologists and seismic interpreters, working in exploration or basin analysis – especially those interpreting seismic data with limited well control. Prerequisites: Participants should have a basic understanding of geology and depositional processes and the reflection seismic method.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

35

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Gary Hampson, Imperial College London RESERVOIR AND PRODUCTION ENGINEERING

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

DRILLING DRILLING

PETROLEUM TROLEUM GINEERING NGINEERING

GEOPHYSICS

CROSS DISCIPLINE

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Conduits and Seals in Hydrocarbon Reservoirs: A Geomechanical Approach * DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND MINING MINING PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS DISCIPLINE

NEAR SURFACE GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM GEOLOGY GEOLOGY ENGINEERING

PETROPHYSICS GEOPHYSICS GEOPHYSICS

CROSS CROSSDISCIPLINE DISCIPLINE

PETROPHYSICS PETROPHYSICS

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Dirk Nieuwland, NewTec International RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

DRILLING DRILLING

NEAR SURFACE GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS

OTHER OTHER

NEAR NEARSURFACE SURFACE

Course Description: The flow of oil and gas through porous reservoir rock is controlled by the permeability of the reservoir. A single permeability system is completely controlled by the rock properties of the reservoir. The presence of faults and/ or fractures complicates the flow by creating a dual porosity/ permeability system when open fractures are present (conduits). Sealing faults can create isolated reservoir compartments (seals). Consequently, prediction of conduits and seals is an essential element in oil and gas exploration and development. This course introduces reliable, proven, state-of-the-art geomechanical methods to predict fracture conduits and fault seals. Course Objectives: The participants will be able to decide on the appropriate fault sealing mechanism and perform a fault seal prediction. The location and orientation of natural open fracture systems can be predicted, using a variety of techniques. The methods taught in this course are universally applicable, including for exploration, field development and underground storage of natural gas or CO2. Participants’ Profile: Geologists, geophysicists and reservoir engineers who have to work with faulted and fractured reservoirs will benefit from this short course. The topic is relevant for exploration as well as for production. Prerequisites: Participants should have knowledge of basic geology and structural geology, geophysics and reservoir engineering. Some practical experience in E&P projects is recommended.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

36 NEAR SURFACE

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Natural Fracture Systems and Fractured Hydrocarbon Accumulations, Mechanics and Management * DRILLING

PETROLEUM GEOLOGY GEOLOGY ENGINEERING

GEOCHEMISTRY

PETROPHYSICS GEOPHYSICS GEOPHYSICS

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND MINING MINING PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Dirk Nieuwland, NewTec International RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course Description: Unconventional hydrocarbon systems require unconventional approaches to decide on drilling locations and development techniques. The information contained in natural fracture systems can be used to support the drilling and well stimulation technique for the development of unconventional hydrocarbon systems such as shale gas. This short course is based on geomechanics as a technique that can be used to understand and develop unconventional hydrocarbon systems such as shale gas systems and fractured crystalline basements, where conventional logging and seismic systems are inadequate. Course Objectives: Asses the possibilities to approach the exploration and development of unconventional hydrocarbon systems. These can be shale gas systems, other forms of tight reservoirs or fractured crystalline basements. Participants’ Profile: Geologists, geophysicists and reservoir engineers who work with faulted and fractured reservoirs will benefit from this short course. The topic is relevant for exploration as well for production. A recent expansion of the course topics includes exploration and development of shale gas systems. Prerequisites: General geology and structural geology, basic physics. A basic knowledge of geomechanics is an advantage but is not strictly required. Recommended reading: Any structural geology textbook will give sufficient background knowledge to follow this short course successfully.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Understanding Subsurface Pressure and Pressure Prediction Duration: two-day CPD Points: 10 Course level: Intermediate Instructor: Phill Clegg, Ikon Science

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Basin and Petroleum Systems Modeling: Applications for Conventional and Unconventional Petroleum Exploration Risk and Resource Assessments *

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

Course Description: Overpressure is experienced in most sedimentary basins where reservoirs are associated with fine-grained lithologies (such as shales), in particular at depths of 2.0km or greater below sea-bed. Recent advances in the understanding of overpressure, in particular the magnitude of overpressure resulting from each of the main mechanisms under realistic basin conditions, gives improved confidence in estimating pore pressures. Participants will learn about the required inputs for displaying reservoir pressure data, the theory and methods underlying pore pressure prediction and the limitations of the techniques employed. Course Objectives: Upon completion of the course, participants will be able to: •  Interpret a variety of pressure data and how they relate to safe and efficient drilling; •  Create locally calibrated hydrostatic and lithostatic gradients •  Interpret data on a pressure-depth plot and relate these data to local and regional geology •  Use a variety of wireline data e.g. sonic, resistivity and density to predict pore pressure in shales using the Eaton *Ratio and Equivalent Depth methods •  Compare reservoir pressure data and shale pressure predictions and understand the relationship between the two •  Recognize the limitations of pore pressure prediction in shales Participants’ Profile: This short course is designed for geologists, geophysicists, petrophysicists and reservoir/drilling engineers with an interest in overpressure and high-pressure reservoirs, i.e. anyone who wants to understand overpressure and to know about the methods to predict it ahead of the bit. Prerequisites: A familiarity with oilfield practices will be an advantage.

GEOLOGY

CROSS GEOPHYSICS DISCIPLINE

DRILLING MINING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Bjorn Wygrala, Schlumberger RESERVOIR AND PRODUCTION ENGINEERING

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course provides an introduction to Basin and Petroleum Systems Modeling, which has in recent years become a key component of geologic risk and resource assessment procedures in petroleum exploration for both conventional and unconventional hydrocarbons. With an emphasis on applications, the course introduces the technology with a case study on exploration in conventional petroleum systems and then follows with theoretical aspects such as temperature, pressure and petroleum generation and migration modeling. We then look at applications for unconventionals such as shale gas/ oil and gas hydrates and conclude with special applications that are relevant in the region in which the course is being presented. Course Objectives: Upon completion of the course, participants will be able to understand modern petroleum systems modeling methods and their applications, as well as to be aware of their role and value in petroleum exploration and resource assessments for both conventional and unconventional oil and gas. The course will create awareness of a technology widely used in the industry, which has rapidly developed in the last few years and which plays a critical role in exploration risk assessments, as well as in the assessment of yet-to-find hydrocarbon resources. Course attendees will learn that the topic is technically innovative and challenging and participants will learn that the application of the technology offers interesting opportunities in the industry and in academia. Participants’ Profile: The course is accessible for geoscientists from all disciplines and for students with any level of experience. It is primarily directed at geologists but the data models and the quality of the results that can be achieved are dependent on geophysical and geochemical input, so all of these disciplines will benefit. Prerequisites: A basic knowledge of petroleum geology and an interest in understanding geologic risk factors in petroleum exploration.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

37

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Image LOG Interpretation *

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

PETROPHYSICS DRILLING MINING

RESERVOIR AND GEOCHEMISTRY PRODUCTION ENGINEERING

TRAINING AND GEOLOGY DEVELOPMENT

MINING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

NEAR GEOLOGY SURFACE

PETROLEUM CROSS GEOPHYSICS DISCIPLINE ENGINEERING

OTHER GEOPHYSICS

CROSS DISCIPLINE

NEAR TRAINING SURFACE AND DEVELOPMENT

PETROLEUM OTHER ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

3D Reservoir Modeling of Naturally Fractured Reservoirs * GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING DEVELOPMENT

OTHER

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Peter Lloyd, Honorary Professor RESERVOIR AND PRODUCTION ENGINEERING

DRILLING

NEAR SURFACE

NEAR SURFACE DRILLING

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS

OTHER

NEAR SURFACE

Course Description: The course has been designed for geoscientists, engineers and other technical staff who want to analyze and integrate image and dip data with other logs and seismic to enhance their understanding of exploration plays and field development. It leans heavily on worked class examples and case studies. Instead of interpreting image and dip data in isolation, the course shows how they can be used in conjunction with cores, other logs, modern depositional analogues, outcrop studies and high-resolution seismic data to refine reservoir models. This course can also be stretched over more days, which will include more exercises. Course Objectives: Upon completion of the course, participants will be able to understand how to quality control, process, interpret and integrate images and dips with petrophysical and seismic data to characterize reservoirs and improve exploration and field development strategies. Participants’ Profile: The course is designed for geoscientists, petrophysicists and reservoir engineers working on subsurface data and involved in developing subsurface models. Prerequisites: Participants should have knowledge of geology and subsurface settings.

PETROPHYSICS GEOLOGY

Duration: one-day CPD Points: 5 Course Level: Advanced Instructor: Tim Wynn, AGR-Petroleum Services RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: This short course aims to provide a comprehensive but brief overview of the characterization and modeling of fractured reservoirs. Data types, analysis techniques, key parameter estimates and some techniques for modeling fractured reservoirs are covered. Key themes of the course are the integration of technical disciplines throughout a project, the correct choices of modeling processes and iterations of modeling steps to optimize the end result. Course Objectives: Upon completion of the course, participants will be able to: •  Be aware of practical workflows for modeling naturally fractured reservoirs using standard industry software. •  To understand the data-gathering requirements and methodology for characterizing fractured reservoirs. •  To appreciate the special distinction of naturally fractured reservoir models compared to standard single-porosity models. Participants’ Profile: Geoscientists newly working in naturally fractured reservoirs and petroleum engineers providing input to, or receiving output from fractured reservoir models. Prerequisites: Participants should have an in-depth understanding of the oil business and a good understanding of conventional reservoir characterization and modeling techniques. No software will be used interactively during the day and no hands-on modeling experience is therefore required. However, it would be beneficial.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

38 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Geological Evolution of Tethys Domains and Surroundings Since the Late Paleozoic * CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

GEOLOGY

GEOPHYSICS

MINING

CROSS DISCIPLINE

NEAR SURFACE DRILLING

Duration: one-day or two-day CPD Points: 5 or 10 Course Level: Advanced Instructor: Eric Barrier, North Caspian Operating Company RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

PETROLEUM ENGINEERING

DRILLING

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROPHYSICS

Course Description: This course depicts the tectono-stratigraphic and geodynamic evolution of the Tethys and PeriTethys domains since the Late Palaeozoic. The area covered includes Northeastern Africa, Near East, the Black Sea-Caucasus region, the whole Middle East and Western Central Asia. The course deals with 6 major parts, namely: •  Methods of palinspastic reconstructions and Tethyan kinematic evolution; •  Late Palaeozoic accretion of northern Pangea; •  Cimmerian tectonics; •  Mesozoic evolution of the active northern Tethyan margin and Eurasian platforms and basins; •  Mesozoic evolution of the passive southern Tethyan margin and Africa-Arabian platforms and basins; •  Cenozoic collisions and major orogenic belts. Course Objectives: Upon completion of this course, participants will: •  have a clear overview of the geological and geodynamic evolution of the Tethys and Peri-Tethys domains in the Middle East and western Central Asia during the last 300 My; •  have a synthetic view of the tectono-stratigraphic evolution of the main basins and orogenic belts of the studied domain; •  be able to correlate the tectonic and/or stratigraphy of basins and orogenoc belts of this domain with the regional geodynamic events related to the opening and closure of the Tethys oceans; •  understand the limits of the methods of palinspastic reconstructions proposed in the scientific literature. Participants’ Profile: Any geoscientists working, or interested, in the geological evolution of the Tethyan and surrounding domains. The course may more particularly concern petroleum geologists working in basin analysis.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Sedimentary Structures and Their Relation to Bedforms and Flow Conditions * GEOCHEMISTRY

PETROPHYSICS GEOLOGY

GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND CROSS DISCIPLINE MINING DEVELOPMENT

MINING

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Advanced Instructor: Janrik van den Berg, Utrecht University RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Fluid dynamics, bedforms and primary sedimentary structures in aqueous and aeolian conditions; recognition of current, wave and aeolian ripples, dunes and bar bedforms from (assemblages of) sedimentary structures; an overview of fluvial, tidal, transitional fluvial-tidal and shoreface (coastal barrier) depositional environments and facies. An in-depth treatment of the development of sedimentary structures and facies of different fluvial meandering river styles as related to flow energy level; an overview of diagnostic criteria for the recognition of fluvial, tidal, transitional fluvial-tidal and coastal barrier environments in outcrops and cores Course Objectives: Upon completion of the course, participants will be able to: •  Understand the relationship between flow, waves, bedforms and primary sedimentary structures; •  Carry out process-related interpretation of primary sedimentary structures and common assemblages of sedimentary structures; •  Recognize diagnostic attributes for fluvial, tidal, coastal and aeolian depositional facies, with special emphasis on cores. Participants’ Profile: This short course is appropriate for geoscientists involved in core descriptions, core evaluations and borehole image interpretations. It is also recommended for those who use existing core descriptions for further evaluations, specifically sedimentologists, stratigraphers and reservoir geologists. Prerequisites: Some familiarity with the basic principles of sedimentology is recommended

Prerequisites: Participants should have classical basic knowledge in geodynamics, kinematics, tectonics and sedimentology-stratigraphy.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RILLING

GEOCHEMISTRY

ROLEUM DRILLING DRILLING NEERING

PETROPHYSICS GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM TROLEUM GINEERING NGINEERING

PETROPHYSICS PETROPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Deepwater Reservoirs: Exploration and Production Concepts* GEOLOGY

RESERVOIR AND GEOLOGY GEOLOGY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOPHYSICS GEOPHYSICS DEVELOPMENT

MINING

CROSS DISCIPLINE

OTHER MINING MINING

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Dorrik Stow, Heriot-Watt University RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

CROSS DISCIPLINE

NEAR SURFACE

DRILLING

NEAR SURFACE DRILLING

PETROLEUM GEOCHEMISTRY ENGINEERING

PETROLEUM ENGINEERING

PETROPHYSICS

Course Description: This course is designed to give the participant a state-of-the-art review and update, thereby providing an overall understanding of the complexity of the deep marine system. It will outline processes and facies and how they evolve on the slope and in the open ocean; discuss how these facies build into distinctive architectural elements and how they can be recognized in the subsurface. The course also covers analysis and interpretation of seismic records, sea floor images, well logs (including borehole image logs), core materials and outcrop characteristics of the component elements of deepwater reservoirs, emphasizing internal architecture as related to reservoir performance. Examples from different deepwater plays around the world will be used to further illustrate their exploration, appraisal, development and reservoir management. Participants’ Profile: All geologists, geophysicists and petroleum engineers involved in exploration and development of deepwater plays. Project managers for deepwater plays and reservoir production. Prerequisites: Participants should have basic knowledge of stratigraphy and sedimentology.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Top Seals and Fault Seals in Clastic and Carbonate Reservoirs: A Practical Approach for Exploration, Production and Reservoir Engineering * GEOCHEMISTRY

PETROPHYSICS GEOLOGY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING DEVELOPMENT

OTHER

Duration: two-day CPD Points: 10 Course Level: Advanced Instructor: Dirk Nieuwland, NewTec International RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The core of this course is a new powerful method of fault seal prediction. The method is qualitative, based on geomechanics and has been calibrated with field cases. The course is based on geomechanics as a sound foundation for structural geological concepts and the behavior of rocks in the brittle regime. Mechanical rock properties and ways and means to determine these properties form an important element of this course. Following an introduction to geomechanics, the theory of fracturing of brittle, ductile and viscous rocks is treated, illustrated with field examples and case histories. An exercise based on real data forms an important element of the course. Cases requiring the use of numerical models are discussed but numerical modeling does not form part of the course. Course Objectives: Upon completion of the course, participants will be able to: •  Recognize the most appropriate fault seal mechanism for an area of choice. •  Perform a quantitative fault seal analysis and if necessary perform a palaeo stress analysis as a basis for fault seal prediction. •  Assess top and fault seal integrity for subsurface processes including exploration, field development and subsurface storage of natural gas or CO2. Participants’ Profile: The course is intended for geoscientists and subsurface engineers that deal with geological problems in relation to (potential) sealing problems with top seals and faults. The relatively advanced subject level requires that participants have at least a basic knowledge of structural geology and they should have field experience of 5 years or more. Prerequisites: Knowledge of basic structural geology and basic reservoir engineering. Five or more years of experience in E&P projects is recommended.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

40 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

Applied Microfacies GEOPHYSICS PETROLEUM GEOPHYSICS ENGINEERING

MINING PETROPHYSICS MINING

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course objectives: Upon completion of the course, participants will be able to: •  Quality control thin sections. •  Determine the mineralogy of a stained section. •  Characterize fossiliferous and non-fossiliferous components such as ooids or brachiopods. •  Classify the carbonate texture (Dunham) and grain geometry.

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Course description: Hands-on microfacies characterization using industry data sets. Analysis: mineralogy, components, pore types, diagenesis. Participants are instructed on how to capture observations such that patterns and rules might be detected. The course encourages participants to think of processes and products during thin section characterization. Industry data sets are used to illustrate the use of microfacies characterization to help solve operational issues of carbonate fields. Production increase is demanded. Wells (fully cored) show contrary production behavior. The stratigraphy is ‘layer cake’ and both wells are perforated in the highest perm interval of a few meters thick.

Prerequisites: Participants should have knowledge of the principles of carbonate geology and a fundamental understanding of petrophysics.

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DRILLING

GEOCHEMISTRY

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GEOLOGY

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PETROPHYSICS

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DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

SC

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MINING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

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GEOPHYSICS

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NEW E-LECTURES EACH MONTH!

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Learn about the latest advances in geoscience with the EAGE E-Lectures

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CROSS DISCIPLINE

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E-LECTURES WWW.EAGE.ORG

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Participant’s profile: The course is designed for geologists, petrophysicists, stratigraphers as well as explorers in academic and industry positions.

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TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

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RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

NEAR SURFACE

Thin sections are linked with petrophysical data, openhole logs and production data. Course participants are encouraged to use thin section descriptions to develop a conceptual model for permeability based on a depositional model architecture based on the investigation of available this sections.

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Mumtaz Shah and Michael Poppelreiter

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PETROPHYSICS PETROPHYSICS

GEOCHEMISTRY

WWW.EAGE.ORG

TROLEUM PETROLEUM GINEERING NGINEERING

NEARGEOLOGY SURFACE GEOLOGY

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GEOCHEMISTRY GEOCHEMISTRY

WWW.EAGE.ORG

DRILLING DRILLING

DRILLING

GEOCHEMISTRY

WWW.EAGE.ORG

CROSS DISCIPLINE

PETROLEUM ENGINEERING

WWW.EAGE.ORG

RESERVOIR & PRODUCTION ENG.

GEOLOGY

WWW.EAGE.ORG

GEOPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

CROSSDISCIPLINE DISCIPLINE CROSS

DRILLING

PETROLEUM NGINEERING

NEAR SURFACE NEAR SURFACE GEOCHEMISTRY

PETROPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

Integrated Reservoir Modeling DRILLING DRILLING

PETROLEUM PETROLEUM GEOLOGY ENGINEERING ENGINEERING

GEOCHEMISTRY GEOCHEMISTRY

PETROPHYSICS PETROPHYSICS GEOPHYSICS

GEOLOGY GEOLOGY

RESERVOIR AND RESERVOIR AND MINING PRODUCTION PRODUCTION ENGINEERING ENGINEERING

GEOPHYSICS GEOPHYSICS

MINING MINING

TRAININGAND AND TRAINING DEVELOPMENT DEVELOPMENT

OTHER OTHER

TRAINING AND DEVELOPMENT

OTHER

A conceptual reservoir model and a digital reservoir model are constructed on paper and digitally. Common sedimentological techniques such as section logging, gamma ray measurements and interpretation of aspect ratios from photo panels and maps will be demonstrated and practiced. All data required to build models are actual industry data. The uncertainty of all data sets is assessed. Alternative models are constructed. QC of data versus interpretation is an integral part of the course. A strong emphasis is put on stratigraphic correlation framework and structural model building. Property modeling and

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

42 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Course objectives: Upon completion of the course, participants will be familiar with:

Course description: This outcrop-based course provides participants with an overview of the integrated reservoir modeling process, tools and tasks. The data set is from a Tertiary carbonate reservoir. It exposes participants to hands-on integrated reservoir modeling.

CROSS DISCIPLINE

NEAR SURFACE

volumetrics are carried out interactively as a team exercise. Team interaction is a fundamental component of this course.

Duration: three-day CPD Points: 15 Course Level: Advanced Instructor: Michael Poppelreiter RESERVOIR AND PRODUCTION ENGINEERING

GEOCHEMISTRY

•  the reservoir modeling workflow •  structural model building •  construction of a stratigraphic framework •  acquisition and modeling of reservoir body dimensions on a regional and local scale •  Acquisition, measurement and application of petrophysical properties. •  Integrate data at different scales: thin sections, cores, outcrop panels, petrophysical data and regional geological information •  depositional system of Tertiary age, •  Well exposed and exceptionally well-studied on a local and a regional scale. Participants’ profileThe course is designed for geologists, geophysicists, engineers, petrophysicists or others involved in reservoir modeling. Prerequisites: Participants should have knowledge of geology and petrophysics. Students are expected to have a clear understanding of how to use Petrel software as well as some comprehension of the principles of geology and log analysis.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

DRILLING

GEOCHEMISTRY

PETROLEUM SDISCIPLINE DISCIPLINE NGINEERING

PETROPHYSICS DRILLING DRILLING

R ARSURFACE SURFACE

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Well Test Analysis * GEOLOGY

RESERVOIR AND GEOCHEMISTRY GEOCHEMISTRY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING GEOLOGY GEOLOGYAND DEVELOPMENT

MINING

OTHER GEOPHYSICS GEOPHYSICS

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Satellite InSAR Data: Reservoir Monitoring from Space (EET 9) GEOLOGY

GEOPHYSICS

MINING

MINING MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Shiyi Zheng, London South Bank University PETROPHYSICS PETROPHYSICS

NEAR SURFACE

OTHER OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND CROSS DISCIPLINE DEVELOPMENT

OTHER DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Alessandro Ferretti, Tele-Rilevamenta Europa (TRE) NEAR SURFACE

Course Description: This course will provide participants with basic knowledge on well test analysis. The course will start with a review of an oilfield life from exploration, appraisal, development and abandonment to define the role of well testing. The history and a clear definition of the subject will also be given as a summary of this introduction. The course will cover classic, modern and numerical well testing concepts and techniques. Course Objectives: This one-day course is designed for reservoir engineers, production engineers, geologists, geophysicists and petrophysicists to master the basic theory and skills in well testing. To get started on the subject for those who know nothing about the topic and for those who have experiences in well testing, to update their knowledge. Participants’ Profile: The course is designed for reservoir engineers, production engineers, geologists, geophysicists and petrophysicists. Prerequisites: Participants who have pre-knowledge on well testing will benefit the most but this is not essential.

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Satellite radar data for surface deformation monitoring are gaining increasing attention. They provide a powerful tool for remotely measuring small-surface displacements that can be applied successfully to many different applications, spanning from sinkhole detection to reservoir optimization. This course provides a step-by-step introduction to satellite radar sensors, SAR imagery, SAR interferometry and advanced InSAR techniques. Rather than a tutorial for remote sensing specialists, the course starts from very basic concepts and explains in plain language the most important ideas related to SAR data processing and why geoscientists and engineers should take a vested interest in this new information source. Course Objectives: Participants will be able to: •  understand the key interest of InSAR for geoscientists and engineers; •  understand the basic concepts behind Synthetic Aperture Radar (SAR) sensors; •  understand the basic data requirements, assumptions, limitations and applicability of SAR interferometry (InSAR); •  discover advantages and limitations of advanced InSAR techniques for estimating sub-centimeter surface deformation phenomena from space; •  compare InSAR data with in-situ measurements, such as GPS and tiltmeters. •  understand how surface deformation can be related to geophysical parameters at depth; •  see how InSAR data are an effective tool for monitoring subsidence phenomena; •  understand the importance of surface deformation monitoring in Carbon Capture and Sequestration (CCS) and Underground Gas Storage (UGS) projects; •  understand why InSAR data can be used as a cost-effective tool for reservoir management, as well as a risk mitigation tool;

Watch a brief lecture with Alessandro Ferretti on this subject online!

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

DRILLING

GEOCHEMISTRY

PETROLEUM NGINEERING

PETROPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Streamline Simulation: Theory and Practice GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

CROSS CROSS DISCIPLINE DISCIPLINE

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Akhil Datta-Gupta, Texas A&M University

NEAR NEAR SURFACE SURFACE

DRILLING DRILLING

GEOCHEMISTRY GEOCHEMISTRY

PETROLEUM PETROLEUM CROSS DISCIPLINE ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS DRILLING

NEAR SURFACE

PETROLEUM ENGINEERING

Course Description: This course is designed to cover introductory and advanced concepts in streamline simulation and their applications for reservoir characterization, reservoir management and field development strategy. The specific topics covered will be: •  Streamline Simulation: Background and Fundamentals •  Streamline Simulation: State-of-the-art and Applications •  Field Case Studies and Experience (iv) Streamline-based ­History Matching and Analysis •  Advanced Topics: Fractured Reservoirs and Compositional Simulation The course will involve a combination of theoretical discussion, practical applications and computer exercises to demonstrate application of the methods. Participants’ Profile: The course is designed for practicing geoscientists and engineers. No formal training in reservoir simulation is required other than knowledge of basic mathematics.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Challenges and Solutions in Stochastic Reservoir Modeling: Geostatistics and Machine Learning * GEOLOGY GEOLOGY

RESERVOIR RESERVOIR ANDAND GEOCHEMISTRY PRODUCTION PRODUCTION ENGINEERING ENGINEERING

GEOPHYSICS GEOPHYSICS

TRAINING TRAINING ANDAND GEOLOGY DEVELOPMENT DEVELOPMENT

MINING MINING

OTHER OTHER GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Vasily Demyanov, Heriot-Watt University PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course is designed to combine basic geostatistical concepts with an overview of state-of-the art conventional and novel algorithms. Many modeling challenges arise in reservoirs with the non-stationary multi-scale correlation of a structure and complex connectivity patterns. The sparsity of available direct measurements of reservoir properties is another constant problem for modeling. Machine learning provides new opportunities in data integration and model control. Novel machine learning techniques are good at capturing dependencies from data when their parametric description is difficult; and controlling the impact of noisy and ad-hoc data. The course includes examples and hands-on exercises. Course Objectives: Upon completion of the course, participants will be able to: understand key geostatistical concepts and their implementation into reservoir modeling, be familiar with a variety of conventional and advanced stochastic modeling algorithms and the specifics of their application and realize the impact of different modeling assumptions. Participants’ Profile: Geoscientists and engineers involved in reservoir model building and data integration. Prerequisites: Participants should have knowledge in geosciences.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

44 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

S DISCIPLINE

AR SURFACE

GEOPHYSICS

GEOLOGY

RESERVOIR & PRODUCTION ENG.

Handling Risk and Uncertainty in Mature Fields CROSS DISCIPLINE CROSS DISCIPLINE

DRILLING DRILLING

NEAR SURFACE NEAR SURFACE DRILLING

PETROLEUM PETROLEUM GEOCHEMISTRY ENGINEERING ENGINEERING

PETROLEUM ENGINEERING

GEOCHEMISTRY GEOCHEMISTRY

PETROPHYSICS PETROPHYSICS GEOLOGY

GEOLOGY GEOLOGY

GEOPHYSICS GEOPHYSICS

MINING MINING

RESERVOIR AND RESERVOIR AND GEOPHYSICS PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING AND TRAINING AND MINING DEVELOPMENT DEVELOPMENT

OTHER OTHER

PETROLEUM ENGINEERING

CROSS DISCIPLINE

NEAR SURFACE CROSS DISCIPLINE

NEAR SURFACE

GEOCHEMISTRY

DRILLING

PETROLEUM DRILLING ENGINEERING

PETROLEUM ENGINEERING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Mark Bentley, AGR PS and Richard Oxlade, AGR PS PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The quantification of risk and uncertainty is often discussed in the context of exploration and appraisal, yet most of the upstream E&P business concerns decision-making in producing assets. This short course will therefore deal specifically with risk and uncertainty-handling in producing fields, the principal differences with E&A being the need to integrate production data in a practical way and the need to address the progressively changing questions that the production environment poses. Strategies for dealing with uncertainty are proposed under the generic headings of People, Tools and Team Approach, as effective uncertainty-handling involves finding practical team-based methodologies in addition to achieving a robust understanding of the underlying statistics and the available modelling tools. Course Objectives: Upon completion of the course, participants will be able to: •  clarify risk and uncertainty definitions •  summarize situations where statistical mistakes are typically made •  describe the tools commonly available for quantifying uncertainty and the pros and cons of each •  explain common sources of bias and how to overcome them; •  lay out a strategy for handling risk and uncertainty that an integrated team Participants’ Profile: Petroleum engineers working in mature fields - all disciplines, and ideal for co-workers who are working together in integrated teams could follow when working mature fields.

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Well Logs and Borehole Image GEOCHEMISTRY

PETROPHYSICS GEOCHEMISTRY

GEOLOGY

RESERVOIR GEOLOGY AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOPHYSICS DEVELOPMENT

MINING

OTHER MINING

Duration: three-day CPD Points: 15 Course Level: Intermediate Instructor: Michael Poppelreiter PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course description: The most universal, comprehensive and concise descriptive documents on oil and gas wells are well logs. They impact the work of almost every oil field group from geologists to roustabouts to bankers. Familiarity with the applications of well logs is therefore essential for people forging their careers in the oil business. The instructor uses a core-based approach to help participants develop a good grounding in understanding and applying well logging techniques. General principles of physics are presented to explain the functioning of modern logging tools. Wherever possible, the physics of logging measurements is related to everyday tools and applications. Cross-plotting and reconnaissance techniques quickly and efficiently discriminate between water, oil and gas. Error minimization techniques, applicable only to computerized log analysis, produce optimal results. Participants benefit from realistic experience by working in teams on a comprehensive log interpretation exercise. Course objectives: Upon completion of the course, participants will be able to: •  Understand geological application of the most commonly run well logs, i.e., caliper, gamma ray, sonic (velocity), resistivity, density, neutron, photoelectric factor, borehole images. •  Read log headers to understand which tool was run in which borehole environment. •  Quality control the logs •  Block logs in geologically meaningful intervals. •  Identify lithologies using various techniques such as common cross-plots •  Calculate net-to-gross ratio and identify pay zones. •  Interpret the depositional environment Participant’s profile: The course is designed for geologists, petrophysicists and stratigraphers Prerequisites: Basic understanding of geology and petrophysics is desirable, along with knowledge of the principles of geoscientific data management.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

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EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

SS DISCIPLINE

AR SURFACE OSS DISCIPLINE

EAR SURFACE

GEOPHYSICS

DRILLING

PETROLEUM CROSS DISCIPLINE DRILLING ENGINEERING

NEARPETROLEUM SURFACE ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Reservoir Geochemistry * GEOCHEMISTRY

PETROPHYSICS GEOCHEMISTRY DRILLING

GEOLOGY

RESERVOIR AND GEOCHEMISTRY GEOLOGY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOLOGY GEOPHYSICS DEVELOPMENT

MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Kenneth Peters, Schlumberger PETROLEUM PETROPHYSICS ENGINEERING

PETROPHYSICS RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR TRAINING AND AND PRODUCTION DEVELOPMENT ENGINEERING

TRAINING AND OTHER DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Petroleum Systems and Exploration Geochemistry *

MINING

OTHER GEOPHYSICS MINING

NEAR SURFACE

CROSS CROSSDISCIPLINE DISCIPLINE

DRILLING DRILLING

NEAR NEARSURFACE SURFACE

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

OTHER

Course Description: This course shows how geochemistry can reduce the risk associated with petroleum development and production. The course provides guidelines for gas, oil and water sample collection and project initiation. It also defines the effects of various reservoir processes on petroleum and shows how to predict oil quality from inexpensive wellbore measurements, how to identify reservoir compartments and de-convolute commingled petroleum and how to assess completion problems.

GEOCHEMISTRY GEOCHEMISTRY

GEOLOGY GEOLOGY

GEOPHYSICS GEOPHYSICS

MINING MINING

Duration: five-day CPD Points: 25 Course Level: Foundation Instructor: Kenneth Peters, Schlumberger PETROPHYSICS PETROPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course Description: This course shows how geochemistry can reduce the risk associated with petroleum exploration. The course provides interpretive guidelines to evaluate prospective source rocks and define petroleum systems and is a prerequisite for computerized petroleum system modeling. Case studies and exercises show how to successfully apply geochemistry to exploration problems.

Course Objectives: Participants will be able to: •  Understand the fundamentals of water analysis •  Understand various geochemical measurements, e.g., GC, GCMS, GC-MS-MS and CSIA, including interpretive pitfalls •  Learn how downhole formation testing can provide in-situ measures of fluid properties •  Learn how to collect water, oil and rock samples and evaluate data quality •  Learn how light hydrocarbons, biomarkers, diamondoids and isotopes are used to correlate oils and assess thermal maturity, thermochemical sulfate reduction, evaporative fractionation, biodegradation and other reservoir processes •  Learn how to assess reservoir compartmentalization; identify gas, oil and water contacts, leakage behind casing; predict oil quality from sidewall cores •  Learn how to assess commingled production and contamination of oil samples •  Learn how to rapidly and inexpensively predict oil properties from core extracts •  Learn various chemometric (multivariate statistics) methods to interpret large volumes of reservoir geochemistry data •  Gain geochemical expertise based on case studies and exercises to allow better communication with colleagues and clients

Course Objectives: Upon completion of the course, participants will be able to: •  Understand the basic concepts of petroleum geochemistry •  Understand basic geochemical measurements, e.g., Rock-Eval pyrolysis/TOC, vitrinite reflectance, including interpretive pitfalls •  Reconstruct the original petroleum generative potential of spent source rock •  Identify the elements and processes that control petroleum systems and how they are quantified in basin and petroleum system models •  Learn how to collect oil and rock samples and how to evaluate data quality •  Use biomarkers, isotopes and chemometrics to correlate oils and source rocks, establish petroleum systems and assess thermal maturity or biodegradation •  Gain geochemical expertise based on case studies and exercises to improve technical productivity and communication with colleagues

Participants’ Profile: The course is designed for development or production geologists but could also benefit geochemical coordinators, managers and exploration geologists.

Prerequisites: Participants should have knowledge of basic chemistry; experience in exploration or production would be helpful.

Participants’ Profile: The course is designed for exploration geologists but could also benefit geochemical coordinators, managers and development geologists.

Prerequisites: Participants should have knowledge of basic chemistry; experience in exploration or production would be helpful.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

46 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Everything You Wanted (Needed!) to Know about Environmental Geophysics but were Afraid to Ask! (EET 7) CROSS DISCIPLINE

NEAR SURFACE

DRILLING

PETROLEUM CROSS DISCIPLINE ENGINEERING

GEOCHEMISTRY

PETROPHYSICS DRILLING

GEOLOGY

RESERVOIR AND GEOCHEMISTRY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING GEOLOGYAND DEVELOPMENT

MINING

OTHER GEOPHYSICS

MINING

GEOCHEMISTRY

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Near-Surface Geoscience * CROSS DISCIPLINE

CROSS DISCIPLINE

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

Duration: one-day CPD Points: 5 Course Level: Foundation Instructor: Peter Styles, Keele University NEAR SURFACE

NEAR SURFACE

OTHER

Course Description: This is an OUTWARD facing course for people who need to understand geophysics because it can solve their problems and will be driven by problems regularly encountered and their optimal geophysical solution in collaboration with the essential but last to be applied intrusive investigation. This course will address the nature of geophysics, the range of problems that can be addressed by it, what can be seen and what can’t and the limitations imposed by the laws of physics and ‘environmental noise’. Course Objectives: What is really important is how we combine techniques in a truly integrated way to solve subtle, complex and critical problems that one technique alone cannot satisfy. Participants’ Profile: Geoscientists, environmentalists, water, civil and geotechnical engineers and engineering, mining and hydro geologists. In fact all those who have responsibilities for specifying and procuring geophysical services or appointing and directing geophysical staff but who do not feel that they understand the techniques, approaches, strengths and limitations of geophysics well enough to obtain optimal advice but understand survey/interpretation information. The course will also be suitable for those who wish for an application / casestudy oriented introduction to environmental geophysics concentrating on the problems and their solutions with recourse to mathematical analysis only where really necessary.

NEAR SURFACE DRILLING GEOLOGY

DRILLING

PETROLEUM GEOCHEMISTRY GEOPHYSICS ENGINEERING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROPHYSICS GEOLOGY MINING

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING MINING AND DEVELOPMENT

OTHER

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Andreas Laake, WesternGeco RESERVOIR PETROLEUMAND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING AND DEVELOPMENT

RESERVOIR OTHERAND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: This course covers the geological and geophysical concepts governing the near-surface. Methods for investigating and characterizing the near-surface such as remote sensing and surface geophysical methods are presented. The different measurements are archived and integrated into a geographical information system (GIS). Course Objectives: The course introduces geomorphology as a concept to understand the geological and geophysical characteristics of the near-surface, enabling the students to extract structural and lithological information. This information can be used on the one hand for the prediction of shallow drilling hazards and outlining deeper structures and on the other hand for the correction of near-surface effects in seismic data processing. Participants’ Profile: Geophysicists and geologists who are working in exploration and are curious to understand the impact of the near-surface on subsurface geophysical data and wish to understand what the surface geomorphology can tell them about subsurface structures. Prerequisites: Participants should have basic knowledge of geophysics and geology.

Prerequisites: Attendees should have experience / knowledge of the types and range of environmental/engineering problems that are encountered in the near-surface and a desire to learn how to best approach them. A working knowledge of elementary mathematics and physics will help but a willingness to engage with the material is more important.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

47

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Geophysical Investigation of River Embankments CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

TROLEUM GINEERING

PETROPHYSICS

NEAR SURFACE GEOLOGY

DRILLING

PETROLEUM GEOPHYSICS ENGINEERING

GEOCHEMISTRY

PETROPHYSICS CROSS MINING DISCIPLINE

GEOLOGY

RESERVOIR DRILLING AND PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOCHEMISTRY DEVELOPMENT

GEOPHYSICS

MINING

CROSS DISCIPLINE

CROSS DISCIPLINE

Duration: one-day CPD Points: 5 Course level: Intermediate Instructor: Ernst Niederleithinger, BAM/RWTH Aachen RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE OTHER

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

The Use of Surface Waves for Near-Surface Velocity Model Building *

MINING

OTHER GEOLOGY

NEAR SURFACE

NEAR SURFACE

DRILLING

GEOCHEMISTRY

PETROLEUM ENGINEERING

PETROPHYSICS

Course Description: The course will give a detailed introduction to geophysical river embankment investigation. This includes background knowledge on geotechnical and legal issues, an overview of available techniques and their proper implementation and interpretation. This will be supported by case studies and hands on experience using real data and industry standard geophysical software. Integration into geotechnical surveys is discussed as well as quality assurance and contracting. Participants are encouraged to bring their own questions and case studies. Course Objectives: Participants will learn: •  how to choose geophysical techniques and design surveys in an appropriate way •  how to translate the geophysical parameters into values useful for the engineers •  how to deal with geotechnical engineers and authorities (or vice versa) •  how to avoid pitfalls. Participants’ Profile: Engineers/scientists working at geophysical or geotechnical contractors, flood protection authorities or research institutions working in flood protection.

NEAR SURFACE GEOLOGY

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM GEOPHYSICS ENGINEERING

PETROPHYSICS MINING

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Laura Valentina Socco, Politecnico di Torino RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Surface-wave analysis can be profitably used for a reliable estimation of near-surface shear-wave velocity models. The course will provide an overview of the basic properties of surface-wave propagation and deepen the surface-wave analysis methods concerning, acquisition, processing and interpretation. An example of applications to different engineering and exploration problems will be discussed. Course Objectives: The course will supply to the participants a wide overview of the main steps of the surface-wave method: acquisition, processing and inversion. Different approaches with their potentialities and limitations will be discussed through many practical examples to enable the participants to acquire knowledge about the requirements and design of data acquisition, processing methods and inversion algorithms for different applications from small-scale engineering problems to large-scale exploration. Participants’ Profile: Near-surface geophysicists and exploration geophysicists interested in near-surface velocity models. Prerequisites: Participants should have basic knowledge of sampling principles, spectral analysis and inversion of seismic data.

Prerequisites: Basic understanding of near surface geophysical techniques. Geotechnical/hydrological or hydraulic knowledge is of benefit. Participants are encouraged to bring their own computers to play with real data. Details will be announced to participants before the course.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

48 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

S DISCIPLINE

AR SURFACE

GEOPHYSICS

CROSS DISCIPLINE

NEAR SURFACE DRILLING

PETROLEUM ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Hydrocarbon Recovery * DRILLING

PETROLEUM CROSS GEOCHEMISTRY DISCIPLINE ENGINEERING

GEOCHEMISTRY

PETROPHYSICS GEOLOGY DRILLING

GEOLOGY

RESERVOIR AND GEOCHEMISTRY GEOPHYSICS PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND MINING GEOLOGY DEVELOPMENT

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Uncertainty in Reservoir Management

MINING

OTHER GEOPHYSICS

GEOCHEMISTRY

CROSS DISCIPLINE

NEAR SURFACE CROSS DISCIPLINE

MINING

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM DRILLING ENGINEERING

PETROPHYSICS GEOCHEMISTRY

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

TRAINING AND GEOPHYSICS DEVELOPMENT

OTHER MINING

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Theo Kortekaas, Heriot-Watt University

Duration: two-day CPD Points: 10 Course Level: Foundation Instructor: Peter King, Imperial College London

Course Description: This course provides an in-depth insight into the physics of hydrocarbon recovery and the mathematics of reservoir simulation. It deals with the basics of displacement of hydrocarbons by water in hydrocarbon reservoirs, the impact of geological heterogeneities and the challenges associated with trying to optimize the recovery of hydrocarbons.

Course Description: The course gives an introduction into many of the concepts behind uncertainty in reservoir modeling. It will start with a description of the origins of uncertainty with a mixture of heuristic treatments and more formal mathematical approaches. It will then develop the appropriate mathematical ideas and tools for estimating uncertainty in practical reservoir modeling. Finally some ideas for how uncertainty can be managed will be explored.

PETROPHYSICS NEAR SURFACE

RESERVOIR PETROLEUM AND PRODUCTION ENGINEERING ENGINEERING

TRAINING PETROPHYSICS AND DEVELOPMENT

RESERVOIR OTHER AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course Objectives: With the currently available computing power it is now possible to model both highly complex geological environments and highly complex hydrocarbon recovery mechanisms. In view of the enormous amount of data in reservoir simulation models there is an increasing tendency to have an unlimited belief in model predictions and omit the necessary quality checks on fundamentals. This course is aimed to (re)gain an in-depth insight into the fundamentals of hydrocarbon recovery in relatively simple geological models.

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Objectives: The aim of this course is to provide some of the basic statistical tools for quantifying uncertainty and some simple strategies for dealing with it. Participants’ Profile: The course is primarily aimed at reservoir engineers involved in building reservoir models but could also be of interest to production engineers who have to deal with the consequences of uncertainty in reservoir performance.

Participants’ Profile: Geoscientists who wish to obtain a good insight into the fundamentals of hydrocarbon recovery and the impact of geological heterogeneities on displacement efficiencies and reservoir engineers who wish to refresh their basic understanding of hydrocarbon recovery.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

49

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

CROSS DISCIPLINE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Geological History of CO2: Carbon Cycle and Natural Sequestration of CO2

GEOCHEMISTRY

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

Course Description: With respect to the current genuine public concern regarding the anthropogenic increase of greenhouse gases, a great deal of research and technology development focuses on the capture and underground storage of industrial quantities of CO2 concentrated in emissions from combustion sources, such as power plants and other industrial activities. Course Objectives: Upon completion of the course, participants will be able to: •  Place the current atmospheric CO2 concentration in a ­geological perspective •  Provide an overview of the methods used to approach the value of the past atmospheric CO2 content •  Review the change in the carbon cycle throughout ­geological time: Evolution of source and sink Participants’ Profile: Anyone interested the current atmospheric CO2 concern and the evolution of the biogeochemistry of the Earth’s system. Prerequisites: Participants should have knowledge of basic geology and chemistry (biology).

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

50 NEAR SURFACE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Jean-Laurent Mallet, Paradigm

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Alain-Yves Huc, IFP Energies nouvelles NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Numerical Earth Models (EET 3) CROSS DISCIPLINE

CROSS DISCIPLINE

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: After presenting a short history of geomodeling from its beginning in the late 60s to nowadays, the course focuses on the concepts of the ‘Shared Earth Model’ and ‘Unified Earth Model’. The course also presents a review of the main types of grids used in geomodeling and, based on flow equations, explains the pro and cons of each of these grids. Course Objectives: Upon completion of the course, participants will be able to understand the foundation of geomodeling tools and use them knowing what they are really doing. Participants’ Profile: The course is aimed at geophysicists, structural geologists, geostatisticians and reservoir engineers who are involved in the construction of Earth models and wish to: •  Learn about how geomodeling software works •  Understand the limitations of current software •  Understand how information is extracted from seismic cubes •  See how to eliminate limitations induced by complex fault networks •  Learn about the pro and cons of several breeds of grids •  Feed flow simulators with optimal models Prerequisites: The course can be understood by geoscientists with a basic mathematical background. The only prerequisite is knowledge of second-degree equations, trigonometric functions and matrix products.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

GEOCHEMISTRY

Petroleum Geoengineering: Integration of Static and Dynamic Models CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

CROSS DISCIPLINE

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Patrick Corbett, Heriot-Watt University NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

OTHER

DRILLING

CROSS GEOCHEMISTRY DISCIPLINE

PETROLEUM ENGINEERING

NEAR PETROPHYSICS SURFACE

Course Objectives: •  The course introduction shows how petroleum geoengineering concepts have developed along with the requirement for more integrated and synergistic technical teams addressing reservoir development projects •  The course emphasizes the links between stratigraphic controls on geobody architecture (and properties), the connectivity and the ultimate recovery factors •  Petrophysical and rock physics properties are measured at a variety of scales. An exercise will explore how averages can be used to determine effective properties at larger scales •  Reservoir models are built by industry using a range of geostatistical techniques and these require calibration by dynamic measurements at various scales. The role of seismic in modeling is considered at the appropriate stage •  Sweep efficiency and recovery factors are determined by scales of lateral and vertical heterogeneity. The use of Lorenz and Modified Lorenz plots is demonstrated in an exercise to illustrate the importance of internal reservoir architecture in controlling recovery factors •  The course challenges subsurface teams to consider strategies for improving oil recovery and with the high demand and price to target ever higher recovery factors Participants’ Profile: The integrated nature of this course means that it is suitable for individuals from all subsurface disciplines (geology, geophysics, petrophysicists, geomodelers, reservoir and petroleum engineers). Additionally the course is very suitable for teams of subsurface staff.

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

CROSS DRILLING GEOLOGY DISCIPLINE

GEOCHEMISTRY GEOPHYSICS DRILLING

GEOCHEMISTRY GEOLOGY MINING

GEOPHYSICS GEOLOGY

MINING GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Behzad Alaei, Rocksource ASA RESERVOIR PETROLEUM NEAR SURFACE AND ENGINEERING PRODUCTION ENGINEERING

PETROPHYSICS TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

RESERVOIR PETROPHYSICS OTHERAND PRODUCTION ENGINEERING

TRAINING RESERVOIR ANDAND DEVELOPMENT PRODUCTION ENGINEERING

TRAINING OTHER AND DEVELOPMENT

OTHER

Course Description: Seismic attributes have been increasingly used in both exploration and reservoir characterization and have been integrated into the seismic interpretation process. Seismic attributes will be introduced with their applications in seismic interpretation using examples from different sedimentary basins and also through certain attribute analysis workflows. It is aimed to provide geoscientists with the minimum required theory of how each attribute is generated with greater emphasis on the applications in exploration and reservoir characterization. Elementary trace-based attributes, dipazimuth, coherence, fault attributes and frequency decomposition will be presented individually as well as in different workflows to identify and extract certain geological objects. Course Objectives: Upon the completion of the course participants will be familiar with a range of relevant attributes used in seismic exploration and reservoir characterization. They will know the basics of how those attributes have been calculated and will gain understanding of their applications in seismic interpretation. They will be able to plan some attribute workflows and also more importantly will learn how to integrate attribute analysis with other disciplines of qualitative/quantitative seismic interpretation. Participants’ Profile: The course is aimed at geoscientists involved in exploration and production projects where seismics play a role and who wish to learn: •  The basic theory of the main seismic attributes used in exploration and production •  Their applications and how to integrate them in exploration and reservoir characterization studies Prerequisites: Participants should have knowledge of seismic interpretation. Mathematical concepts of attributes are presented with minimum required equations and graphic illustrations. Some basic knowledge of seismic exploration may be beneficial.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

51

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Seismic Attributes and Their Applications in Seismic Interpretation *

Course Description: This course in designed for a broad range of geoscientists and engineers working in the petroleum industry. The course provides improved linkage between the techniques used at various scales to describe and model petroleum reservoirs. The ultimate objectives are to enable technical staff to maximize the recovery of hydrocarbons. The impact of petrophysical heterogeneity at various scales on the recovery of oil and gas provides the focus for the course. This course was a SEG/EAGE 2009 course.

CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

Uncertainty Quantification and Management * CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

TROLEUM GINEERING

PETROPHYSICS

CROSS GEOLOGY DISCIPLINE

NEAR SURFACE GEOPHYSICS DRILLING

DRILLING

PETROLEUM GEOCHEMISTRY MINING ENGINEERING

PETROLEUM ENGINEERING

GEOCHEMISTRY

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

PETROPHYSICS GEOLOGY

RESERVOIR AND GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING DEVELOPMENT

OTHER

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

Duration: one-day CPD Points: 5 Course level: Intermediate Instructor: Dario Grana, University of Wyoming RESERVOIR NEAR SURFACE AND PRODUCTION ENGINEERING

TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Geomechanics for Energy-related Applications * CROSS GEOLOGY DISCIPLINE

RESERVOIR NEAR SURFACE AND CROSS DISCIPLINE PRODUCTION ENGINEERING

GEOPHYSICS DRILLING

TRAINING PETROLEUM AND DRILLING DEVELOPMENT ENGINEERING

GEOCHEMISTRY MINING

PETROPHYSICS OTHER GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

RESERVOIR AND GEOLOGY PRODUCTION ENGINEERING

TRAINING AND GEOPHYSICS DEVELOPMENT

OTHER MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructors: Lyesse Laloui, Swiss Federal Institute of Technology Alessio Ferrari, Swiss Federal Institute of Technology NEAR SURFACE

OTHER

Course Description: Integrated reservoir modeling workflows provide a set of techniques to create three-dimensional numerical earth models in terms of elastic, petrophysical and dynamic properties of the rocks at different time steps during exploration and production. The course focuses on the quantification of uncertainty in the data, in the physical models and in the predictions in reservoir modeling workflows. Topics include uncertainty quantification in seismic reservoir modeling, geostatistical reservoir simulations, fluid flow modeling, and reservoir monitoring. The link between uncertainty quantification and decision-making will be introduced through decisionmaking theory. The course will include demonstrations of the methodologies on real case applications. Course Objectives: Upon completion of the course, participants will be able to: •  generate multiple reservoir models •  evaluate the uncertainty of model predictions •  and develop strategic approaches to make decisions based on uncertainty evaluation results Participants Profile: The course is designed for employees of oil companies in geophysics and reservoir modeling. Prerequisites: Participants should have knowledge of basic reservoir modeling concepts and of common geophysical data.

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course gives an insight on modern trends in geomechanics for dealing with geomaterials in multiphase and non-isothermal conditions. The course introduces the basic concepts for the characterisation of the materials and their numerical modelling. The multiphase composition of the involved geomaterials and the concept of REV for a continuum mechanics approach are recalled. Modern techniques for testing the materials under coupled (thermo-hydro-chemicalmechanical) conditions are introduced. The available evidences for the effects of the changes in the degree of saturation and temperature are summarized, providing the attendances with the possibility to anticipate the behaviors of geomaterials under non-isothermal and partially saturated conditions. Mathematical models are then presented to cope with these complex physical interactions in a quantitative manner and to be able to predict the behavior of the materials in such conditions. Energy-related engineering applications are finally presented to show how the knowledge gathered with the course can be applied when dealing with complex natural and manmade systems. Course Objectives: Upon completion of the course, participants will have a first-order understanding of the rheological behavior of soils, shales and rocks under a variety of saturation conditions and temperature variations. Fundamental constitutive concepts will be well understood and basic knowledge on the numerical simulation of geomechanical problems will be gained. Participants’ Profile: The course is designed for postgraduate students, researchers and practitioners in fields where multiphase and non-isothermal behavior of geomaterials (soils, rocks and shales) plays a fundamental role, such as petroleum engineering, unconventional energy resources, nuclear waste storage engineering and CO2 geological sequestration. Prerequisites: Basic knowledge of soil and/or rock mechanics is required.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

52 NEAR SURFACE

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

DRILLING

TROLEUM GINEERING

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Applications of 3D and 4D geomechanical models in petroleum exploration and production GEOCHEMISTRY

PETROPHYSICS

CROSS GEOLOGY DISCIPLINE

GEOPHYSICS DRILLING

GEOCHEMISTRY MINING

GEOLOGY

GEOPHYSICS

TRAINING PETROLEUM AND DEVELOPMENT ENGINEERING

PETROPHYSICS OTHER

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: Three-dimensional geomechanical models are becoming 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 measures 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 behaviour of reservoir geomechanical models. The purpose of this course is to provide an overview of currently available workflows to build and run calibrated 3D and 4D geomechanical models, maximising the use of seismic data. By attending the course, participants will deepen their insight into each of the elements that comprise 3D and 4D geomechanical models. Special attention is given to the way that seismic data assist in the process, what other data sources are required, how to calibrate geomechanical models and finally, how to interpret geomechanical models for a range of applications. Course Objective(s): The purpose of this course is to: 1. Provide an overview of currently available techniques to build and calibrate 3D and 4D geomechanical models; 2. Demonstrate the interaction between rock properties, pore pressure and stress state;

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

3. Apply the knowledge of stress state from geomechanical models to field development and reservoir management; 4. Understand the limitations of current workflows and techniques and give a glimpse of the road ahead. Participants’ Profile: Geomechanic projects integrate data and models from many different subsurface disciplines, including geophysics, rock mechanics testing, geology, geomodelling, rock physics and reservoir engineering. The course is designed for practicing geoscientists and engineers and demonstrates how their discipline knowledge contributes to geomechanical modelling. The course is also beneficial to students of petroleum geoscience (geophysics and geology). Finally, the course also appeals to managers of 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 geomechanics, be their background in geology, geophysics, rock physics, reservoir engineering or geomechanics. The course was developed mainly with a practicing geophysicist or geologist in mind. 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 to 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 are included in the course material to aid intuitive understanding.

Watch a brief e-lecture of this course online!

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

53

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

NEAR SURFACE

MINING

Duration: one-day Course Level: Intermediate Instructor: Jorg Herwanger, Ikon Science RESERVOIR NEAR SURFACE AND PRODUCTION ENGINEERING

GEOCHEMISTRY

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Dealing with Geohazards in New Frontiers – Prevention the Better Cure * CROSS DISCIPLINE

NEAR SURFACE

CROSS DISCIPLINE CROSS DRILLING DISCIPLINE

DRILLING GEOCHEMISTRY DRILLING

GEOCHEMISTRY GEOCHEMISTRY GEOLOGY

GEOLOGY GEOPHYSICS GEOLOGY

GEOPHYSICS MINING GEOPHYSICS

MINING MINING

GEOCHEMISTRY

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Geostatistics for Seismic Data Integration in Earth Models * CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Robert Gruenwald, Sasol Petroleum International

Duration: two-day (optionally one-day) CPD Points: 10 Course Level: Intermediate Instructor: Olivier Dubrule, Total/Imperial College London

Course Description: Transmit an understanding of the principles of pore pressure evaluation and prediction and their relevance in safe and effective wellbore operations in on- and offshore environments. Hands-on calculations on different types of offset well information as well as the integration of seismic methods and explaining the relationship between effective stress and velocities.

Course Description: The course presents the basic concepts and applications of geostatistics in a way that is intuitive and easily understandable to geoscientists and reservoir modelers. The main topics covered are a basic understanding of what the variogram physically means, the use of kriging and cokriging for combining seismic and well data, conditional simulation for heterogeneity modeling and uncertainty quantification and the latest developments in geostatistical inversion of seismic data.

NEAR PETROLEUM NEARSURFACE SURFACE ENGINEERING

PETROLEUM PETROPHYSICS PETROLEUM ENGINEERING ENGINEERING

PETROPHYSICS RESERVOIR PETROPHYSICS AND PRODUCTION ENGINEERING

RESERVOIR AND TRAINING RESERVOIR AND AND PRODUCTION DEVELOPMENT PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAINING AND OTHER AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course Objectives: Upon completion of the course, participants will be able to transmit an understanding of the principles of pore pressure evaluation and prediction and their relevance in safe and effective wellbore operations in on- and offshore environments. Hands-on calculations on different types of offset well information as well as the integration of seismic methods and explaining the relationship between effective stress and velocities will enable participants to estimate pore pressure in different environments and to QC third-party predictions and reports. The result of properly handling pressure related geohazards and unsafe drilling procedures will be highlighted by global success and failure stories. Participants’ Profile: Geoscientists with the aim of becoming involved in drilling operations, well planning supervision related to E&P and geothermal prospecting. Prerequisites: Participants should have: •  Experience in on-offshore wellbore planning, monitoring and well log formation evaluation •  Basics in rock mechanics •  Principles of practical drilling skills and operations

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

54 NEAR SURFACE

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Objectives: Upon completion of the course, participants will have a much better practical understanding of the practical impact of using different models in geostatistical interpolation and conditional simulation. Thanks to the course, they will not regard geostatistics as a black-box but as a flexible tool allowing them to tailor their modeling to the understanding they have of the variables they are modeling. Participants’ Profile: Petroleum geoscientists and reservoir engineers are the main target of the course. This is a great opportunity for those interested in solving practical problems involving data interpolation, Earth modeling, multidisciplinary data integration or uncertainty quantification. Prerequisites: Ideally, the course participants should have some basic practice of geostatistics.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE

PETROLEUM ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Shale Gas Geomechanics * GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

GEOCHEMISTRY

RESERVOIR AND CROSS DRILLING DISCIPLINE PRODUCTION ENGINEERING

TRAINING GEOCHEMISTRY DRILLINGAND DEVELOPMENT

OTHER GEOCHEMISTRY GEOLOGY

GEOLOGY GEOPHYSICS

GEOPHYSICS MINING

CROSS CROSSDISCIPLINE DISCIPLINE

NEAR PETROLEUM SURFACE ENGINEERING

PETROLEUM PETROPHYSICS ENGINEERING

PETROPHYSICS RESERVOIR AND PRODUCTION ENGINEERING

RESERVOIR TRAINING AND AND PRODUCTION DEVELOPMENT ENGINEERING

TRAINING AND OTHER DEVELOPMENT

OTHER

Participants’ Profile: Drilling, completion, reservoir and production engineers, geologists, geophysicists, geoscientists and petrophysicists.

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

GEOLOGY

GEOPHYSICS

MINING

NEARDRILLING SURFACE DRILLING

PETROLEUM GEOCHEMISTRY GEOCHEMISTRY ENGINEERING

PETROPHYSICS GEOLOGY GEOLOGY

RESERVOIR AND GEOPHYSICS GEOPHYSICS PRODUCTION ENGINEERING

TRAINING AND MINING MINING DEVELOPMENT

OTHER

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

PETROPHYSICS PETROPHYSICS

RESERVOIR RESERVOIRAND AND PRODUCTION PRODUCTION ENGINEERING ENGINEERING

TRAINING TRAININGAND AND DEVELOPMENT DEVELOPMENT

OTHER OTHER

Course Description: This is an interactive course focusing on ‘geomechanical modeling’ and ‘wellbore stability analysis’. In the first part, the importance and applications of geomechanics in the oil and gas industry will be discussed. Constructing 1D to 4D geomechanical models using geology and drilling information, well logs and core data from off-set wells is a major part of this section. How to calibrate the model with regional stress and rock strength data will also be discussed. The second part describes how to analyze the wellbore stability condition for generic and optimum well trajectories using an existing calibrated geomechanical model. Defining a safe operating mud weight window for a specific well trajectory and optimizing well trajectory in a specific stress field will be taught. Special cases such as horizontal wells, chemically reactive rocks, weak bedding planes, natural fractures, salt domes and underbalanced drilling will also be addressed. Course Objectives: Upon completion of the course, participants will: •  Understand the importance of geomechanics and its applications in the oil and gas industry •  Learn the theory of rock mechanics (e.g., theories of stress, deformation and failure etc.) •  Learn data requirement for geomechanical modeling •  Be able to design a rock mechanics testing program and QC the results •  Be able to build geomechanical models using an Excel sheet (including stress and rock property calculations) •  Be able to define a safe operating mud weight window •  Be able to find the safest well trajectory to drill by generating polar plots •  Understand the effect of rock anisotropy •  Be able to verify and calibrate wellbore stability models •  Learn about wellsite wellbore instability identification Participants’ Profile: Drilling, completion, reservoir and production engineers, geologists, geophysicists, geoscientists and petrophysicists.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

55

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

NEAR NEARSURFACE SURFACE

Course Objectives: Participants will be able to: •  Understand the importance of geomechanics in the development of shale gas resources •  Learn the theory of rock mechanics •  Understand the differences between geomechanical analysis for conventional and unconventional rocks •  Learn data requirement for geomechanical modeling •  Design a rock mechanics testing program for shale and QC the results •  Build geomechanical models using an Excel sheet (including stress and rock property calculations for anisotropic formation) and calibrate it •  Define a safe operating mud weight window and find the safest well trajectory to drill •  Determine feasibility for UBD •  Understand the influence of a stress regime on the ­orientation and extension of hydraulic fractures •  Understand compaction, subsidence and casing collapse problems

DRILLING

GEOCHEMISTRY

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Hamed Soroush, Petrolern Ltd.

Course Description: This is an interactive course presented in two modules. In the first part, the importance of geomechanics in the development of shale gas resources will be discussed. Constructing 1D to 4D geomechanical models using geology and drilling information, well logs and core data from off-set wells is a major part of this section of the course. How to calibrate the model with regional stress and rock strength data will also be discussed. The second part includes different applications of geomechanics related to shale plays. Mechanical and chemical wellbore instabilities, hydraulic fracturing design and optimization, maximizing production from natural fractures, compaction and subsidence, casing collapse and multi-lateral junctions are applications that will be covered in this module. The differences between geomechanical analysis in conventional and unconventional reservoirs will be explained and special attention will be paid to rock anisotropy.

CROSS DISCIPLINE

DRILLING

MINING

Duration: two-day CPD Points: 10 Course Level: Intermediate Instructor: Hamed Soroush, Petrolern Ltd. NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Geomechanical Analysis for Wellbore Stability *

MINING

CROSS DISCIPLINE

PETROPHYSICS CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

CROSS DISCIPLINE

NEAR SURFACE

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Assuring Flow from Pore to Process * CROSS DRILLING DISCIPLINE

PETROLEUM NEAR SURFACE CROSS DISCIPLINE ENGINEERING

GEOCHEMISTRY DRILLING

PETROPHYSICS PETROLEUM DRILLING ENGINEERING

GEOCHEMISTRY GEOLOGY

RESERVOIR PETROPHYSICS AND GEOCHEMISTRY PRODUCTION ENGINEERING

GEOPHYSICS GEOLOGY

TRAINING RESERVOIR AND AND GEOLOGY DEVELOPMENT PRODUCTION ENGINEERING

GEOPHYSICS MINING

MINING

TRAINING OTHER AND GEOPHYSICS DEVELOPMENT

OTHER MINING

GEOCHEMISTRY

CROSS DISCIPLINE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

NEAR SURFACE

Course Objectives: This one-day course presents an holistic approach to flow assurance. The course will introduce technologies, workflows and their deployment for the identification, characterization and management of flow impediments, such as slugging and precipitation of organic and inorganic solids. The course will present best practices and fit-for-purpose design solutions for minimizing the risk of flow stoppage while transporting hydrocarbons from “Pore to Sales Meter”. The principles will be demonstrated using field examples from around the world. Participants’ Profile: This course is suitable for anyone with an engineering or scientific background. The intended audience of this course are engineers who are involved in hydrocarbon field development, drilling, well construction, production, transportation and processing. This course will also be beneficial to department, asset and technology managers. Prerequisites: Participants should have a basic understanding of petroleum engineering from reservoir to surface facilities aspects of the petroleum industry.

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

56 NEAR SURFACE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: One-day CPD Points: 5 Course Level: Introduction Instructor: Asbjorn Norlund Christensen

Course Description: Impediment to flow caused by either fluid phase behavior coupled with the dynamics of flow and/or production-chemistry-related issues in the near-wellbore, wellbores and flow lines has long been identified in onshore and offshore shallow-water environments. These events become more severe in a deepwater and ultra-deep water environment as the intervention is very challenging from both technical and cost considerations.

CROSS DISCIPLINE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Exploring with Airborne Gravity Gradiometry

Duration: one-day CPD Points: 5 Course Level: Advanced Instructor: Abul Jamaluddin, Schlumberger NEAR SURFACE

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: The course combines a series of presentations on airborne gravity gradiometry (AGG) with hands-on exercises and class discussions. The objective of the course is to introduce attendees to AGG with a particular emphasis on its application to exploration for hydrocarbons and mineral resources. Course Objectives: Upon completion of the course, participants will have a deeper understanding of: •  the differences and similarities between AGG and conventional gravity, •  the current AGG technologies (FTG and FALCON) as well as the emerging new AGG technologies that may become available in the near future, •  the sensitivity of the AGG technologies – what may and may not be detected – and how to design an AGG survey to deliver maximum value to their exploration program, •  the ways to interpret AGG data and how to integrate the interpretation with seismic and other geophysical data and a number of case studies ranging from base metals to hydrocarbon exploration plays. Participants’ Profile: The course is presented with a minimum use of mathematics and is intended for any exploration geophysicist/geologist interested in learning about airborne gravity gradiometry.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

SSDISCIPLINE DISCIPLINE

R ARSURFACE SURFACE

GEOPHYSICS

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Carbonate Essentials: Pores to Prospect DRILLING DRILLING

PETROLEUM PETROLEUM ENGINEERING ENGINEERING

CROSS DISCIPLINE GEOCHEMISTRY GEOCHEMISTRY

DRILLING GEOLOGY GEOLOGY

GEOCHEMISTRY GEOPHYSICS GEOPHYSICS

GEOLOGY MINING MINING

GEOPHYSICS

Duration: One-day CPD Points: 5 Course Level: Foundation Instructor: Christopher Liner NEAR SURFACE PETROPHYSICS PETROPHYSICS

PETROLEUM RESERVOIR RESERVOIR AND AND ENGINEERING PRODUCTION PRODUCTION ENGINEERING ENGINEERING

PETROPHYSICS TRAINING TRAINING AND AND DEVELOPMENT DEVELOPMENT

RESERVOIR OTHER OTHER AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

MINING

CROSS DISCIPLINE

OTHER

GEOCHEMISTRY

NEAR SURFACE

GEOLOGY

GEOPHYSICS

MINING

PETROLEUM ENGINEERING

PETROPHYSICS

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOPHYSICS

MINING

TRAINING AND DEVELOPMENT

OTHER

Course description: Gravity and magnetic data are among the oldest geophysical data acquired for the purpose of resource exploration and exploitation. They currently also have the widest areal coverage on Earth, span a great range of scales and play important roles in mineral, energy and groundwater arenas. Interpretation methods have evolved from data mapbased visual inspection, various map enhancements and depth estimation, to quantitative interpretations based on inversions and integrated modeling. In particular, 3D inversion techniques have emerged as a major component in this evolution. The availability of 3D inversion techniques has advanced potential-field interpretation from ‘anomaly bump hunting’ to 3D imaging of the subsurface by reconstructing the distribution of density or magnetic properties in various geological units and, thereby, have shifted interpretations from the data domain to the model domain. Similarly, inversion techniques are also poised to make major contributions to integrated modeling and interpretation, as well as to differentiating and characterizing geology, geological processes and reservoir dynamics. This course will focus on the methodology, numerical computation, solution strategy and applications of 3D physical property inversions in both gravity and magnetic methods. We begin with the fundamentals of potential-field data observed in gravity, gravity gradiometry and magnetic surveys. We then present the formulation of 3D gravity and magnetic inversions and the practical strategies for their efficient solution and applications to large-scale problems. We then discuss the newer inversions i.e., airborne gravity gradiometry data and borehole gravity data, as well as that of magnetic data under difficult conditions such as the presence of strong remanent magnetization and self-demagnetization. Finally, we demonstrate the inversion techniques through case studies in both mineral exploration and oil and gas exploration and production.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

57

EAGE Short Course Catalogue ’16-’17 NEAR SURFACE

Duration: One-day CPD Points: 5 Instructor: Yaoguo Li

Participants’ profile: The course is designed for seismic interpreters, geologists, reservoir engineers and technical managers. Early career geoscientists can benefit from the broad overview of this course, as well as seismic acquisition and processing geophysicists.

DRILLING

NEAR SURFACE

Gravity and Magnetic Methods for Resource Exploration and Production 3D Inversion and Quantitative Interpretation (EET 11)

Course description: This course is an overview of carbonates from geology to seismic interpretation, with a particular emphasis on karst topography and seismic expression thereof. Carbonate reservoirs represent over 60% of worldwide petroleum reserves, including emerging unconventional reservoirs. Unlike clastics, carbonate mineralogy is relatively simple, while complexity arises from depositional environment lateral variability, pore structure, digenesis and dissolution. These factors influence bulk rock properties and, in turn, seismic response. The course offers a broad overview of carbonate geology and properties that are mappable on a seismic scale as potential hydrocarbon reservoirs. To illustrate key concepts, field sites and case histories are presented from global locations. Course objectives: Participants will be able to understand: 1. Carbonate geological classification, pore structures and the nature of karst terrain. 2. Relationship of seismic parameters to carbonate rock properties 3. Use of full-wave and dipole sonic to map fractures and classify in Vp/Vs-impedance space 4. Basic concepts of 3D Seismic such as resolution and meaning of seismic amplitude 5. Carbonate horizon mapping with 3D seismic data in faulted and unfaulted terrain 6. Nature of carbonate lithology bright spots and geobody extraction 7. Parametrization and use of fundamental 3D seismic attributes in carbonate settings

CROSS DISCIPLINE

GEOCHEMISTRY

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

SS DISCIPLINE

DRILLING

AR SURFACE

PETROLEUM ENGINEERING

RESERVOIR & PRODUCTION ENG.

GEOLOGY

PETROLEUM ENGINEERING

Digital Rock Technology

CROSS DISCIPLINE GEOCHEMISTRY

NEAR SURFACE PETROPHYSICS CROSS DISCIPLINE

DRILLING GEOLOGY

PETROLEUM RESERVOIR AND DRILLING ENGINEERING PRODUCTION ENGINEERING

GEOCHEMISTRY GEOPHYSICS

PETROPHYSICS TRAINING AND GEOCHEMISTRY DEVELOPMENT

GEOLOGY MINING

RESERVOIR OTHERAND GEOLOGY PRODUCTION ENGINEERING

GEOPHYSICS

TRAINING AND GEOPHYSICS DEVELOPMENT

Duration: One-day CPD Points: 5 Course Level: Intermediate Instructor: Mark Knackstedt NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

MINING

OTHER MINING

OTHER

Course description: Digital rock technology offers promise to overcome limitations of conventional core flooding – in particular sensitivity to coring, core preservation, handling and preparation procedures. In contrast to conventional analysis, digital core analysis involves numerical simulation of the desired experiments using a digital model of the core – this enables simulation of a range of desired conditions, flow regimes, fluid compositions and chemistry. In addition, the simulations can be repeated on the same core models to evaluate different scenarios of oil production and investigate sensitivities to various parameters like flow rate, initial saturation and wettability. Additional advantages of the technology include the ability to make predictions considerably more quickly than conventional measurements and the ability to use damaged samples and drill cuttings too small for standard measurements. This technology, originally devoted to basic studies of displacement processes, is emerging as a potential predictive tool for the oil industry with several companies now providing digital core analysis services. Digital rock projects have historically focused on applications to core analysis – characterizing details at the pore scale and ensuring that the physics incorporated is as required to make meaningful predictions. While this is a crucial area, it has been a fundamental limitation to creating widespread commercial value and real growth to date. This course will provide an in-depth description of digital rock analysis techniques with an emphasis on the fundamentals, tools and practical methods utilized in this workflow. Ad-

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

58 NEAR SURFACE

GEOCHEMISTRY

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

vanced methods and current limitations will also be discussed. The course will then highlight how this technology can aid the geoscientist and reservoir engineer today by complementing traditional measurements and using the results intelligently to predict and interpret field-scale recovery processes. We describe examples where reconciliation and integration of the different types of data from a fundamental understanding of the pore scale has added value. In particular the work is used to offer fast turnaround times, aided in our understanding of unconventional reservoir core material and to explain uncertainties and trends from laboratory measurements (e.g., issues with heterogeneity, representative elemental volume, wettability, distribution of remaining oil saturation, EOR processes). We conclude with a discussion on how to extend this technology for reliable prediction of petrophysical & SCAL data along continuous lengths of core material and to integrate the data with other forms of data at increasingly larger scales (log characterization, geomodels and ultimately reservoir simulators). Course objectives: Upon completion of the course, participants will be able to: 1. Understand the physics of flow processes in porous rocks 2. Be aware of the most recent development in 3D imaging and modeling technology from nanometer to meter scales 3. Understand the importance of wettability in multiphase flow properties 4. Understand how to utilize pore scale information for the interpretation of laboratory data and roadmaps to use in predicting properties at larger scales; 5. Have an ability to use digital techniques as a complementary source of data for reservoir characterization Participants’ profile: Core analysts, petrophysicists, geoscientists, formation evaluation specialists and reservoir engineers. Prerequisites Basic core analysis knowledge would be useful.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

EAGE Short Course Catalogue ’16-’17 PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

GEOPHYSICS

EOCHEMISTRY

GEOLOGY

ETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

GEOLOGY

RESERVOIR & PRODUCTION ENG.

PETROLEUM ENGINEERING

GEOCHEMISTRY

Art of Science GEOPHYSICS

TRAINING AND DEVELOPMENT

MINING

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

NEAR SURFACE

TRAINING AND DEVELOPMENT

CROSS DISCIPLINE

Attracting, Developing and Retaining Top Technical People * GEOPHYSICS

MINING

OTHER

Duration: one-day CPD Points: 5 Course level: Foundation Instructor: Roel Snieder, Colorado School of Mines

TRAINING AND DEVELOPMENT

OTHER CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

Duration: one-day CPD Points: 5 Course Level: Intermediate Instructor: Peter Lloyd, Honorary Professor NEAR SURFACE

Course Description: This is a hands-on course for professionals wishing to perfect the practical skills needed for a successful research career. Topics covered include considerations for choosing a research portfolio; making a workplan; mentoring and being mentored; the ethics of research; using the scientific literature; oral and written communication; publishing papers; writing proposals; managing time effectively; and planning a career and applying for jobs in research and industry. This course is aimed at junior researchers and their mentors in all fields of science and engineering. Course Objectives: Upon completion of the course, participants will be able to: •  understand the considerations for choosing a research portfolio •  make a workplan for research that is underpinned by questions •  know common pittfalls and opportunities in research •  describe the elements of efficient oral communication •  comprehend fundamentals of time management

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

Course Description: This course considers how the upstream oil and gas business can make itself attractive to top-level young geoscience and engineering undergraduates. It will consider the education they can be given in universities so they are most effective upon graduation and how to develop and retain them through their careers. The first part of the course is a formal review of where things stand. The second moves into ‘workshop mode’ to discuss local issues and tailor specific solutions. Course Objectives: Upon completion of the course, participants will be able to lay out a strategic plan to recruit and develop top graduates and plan their training programs. Participants’ Profile: The course is designed for Human Resource teams tasked with recruiting and developing staff for their technical departments.

Participants’ Profile: This course is aimed at junior researchers and their mentors in all fields of science and engineering.

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION

TRAINING AND DEVELOPMENT

OTHER

Europe Office Tel.: +31 88 995 5055 Fax: +31 30 634 3524 E-mail: eage@eage.org Website: www.eage.org

CROSS DISCIPLINE

DRILLING

GEOCHEMISTRY

GEOLOGY

GEOPHYSICS

MINING

NEAR SURFACE

PETROLEUM ENGINEERING

PETROPHYSICS

RESERVOIR AND PRODUCTION ENGINEERING

TRAINING AND DEVELOPMENT

OTHER

ENGINEERING Head Office PO Box 59, 3990 DB Houten, The Netherlands Tel.: +31 88 995 5055, Fax: +31 30 634 3524 E-mail: eage@eage.org Website: www.eage.org

Russia & CIS Office Tel.: +7 495 640 2008 Fax: +7 495 640 2009 E-mail: moscow@eage.org Website: www.eage.ru

Middle East Office Tel.: +971 4 369 3897 Fax: +971 4 360 4702 E-mail: middle_east@eage.org Website: www.eage.org

Asia Pacific Office Tel.: +60 3 272 201 40 Fax: +60 3 272 201 43 E-mail: asiapacific@eage.org Website: www.eage.org

Americas Office Tel.: +31 88 995 5055 Fax: +31 30 634 3524 E-mail: americas@eage.org Website: www.eage.org

G C IN PE UD RO CL U IN E E SP

79th EAGE Conference & Exhibition

PARIS 2017 JOIN US! 12-15 June 2017 | Paris www.eage.org/event/paris-2017