Applied Concepts of Natural Fractures: Mechanics and Characteristics in Outcrop and Core, New Mexico

Learn how to interpret faults and critically assess their impact on exploration traps and complex reservoir development.

A comprehensive examination of seismic stratigraphy to aid exploration and development of plays in mixed carbonate-siliciclastic systems, using examples from the Permian Basin.

Become a more effective member of a multi-disciplinary team by developing a solid understanding of engineering concepts and terminology.

This course focuses on large scale rules, risks, uncertainties, strategies and workflows to aid in de-risking carbonate exploration.

Learn core handling and core description techniques and how to integrate core-based facies analysis into reservoir characterization of siliceous and calcareous mudstones, muddy sandstones, and sandstones.

Study world-class outcrops displaying sandbody architecture in a variety of stratigraphic and structural settings to improve understanding of reservoir geometry and fluid flow characteristics.

Examine superb outcrops to develop better understanding of clastic shoreline and shelf systems and apply sedimentology and sequence stratigraphic concepts to build depositional models and predict facies distributions. 

This course examines the structural geology of salt basins, the interactions between salt and surrounding strata, and includes interpretation of seismic data in salt settings.

Superb outcrops illustrate the range of depositional facies and tectonics that influence the style and intensity of faulting, folding and fracture development.

This software-independent course examines the reasons why reservoir models often disappoint and offers solutions for building more efficient, fit-for-purpose models.

Application of the techniques described has consistently provided new interpretations that have led to new field discoveries and/or identification of stratigraphic compartments within existing fields.

Learn to use petroleum systems analysis (regional geology, geochemistry and petroleum systems modeling) to evaluate unconventional/resource play reservoirs.

Of particular interest to individuals evaluating the pre-salt of Brazil and West Africa but will appeal to all geoscientists who wish to expand their knowledge of non-marine  carbonate reservoirs.

This course provides an analysis-level treatment of fault geometry, characterization of seal effectiveness, and assessment of rupture hazard with application to hydrocarbon exploration, reservoir development and management, fluid pressure containment analysis for CCS, and induced seismicity hazard assessment. 

The course investigates world-class outcrops to introduce engineers to a wide spectrum of stratigraphic and structural features commonly found in exploration and production.

A field course focusing on the analysis of deepwater lithofacies, stratal geometries and key stratigraphic surfaces.

The course aims to improve the understanding of uncertainties in the mapping of complex fault zones and the processes that create potential seals and compartmentalisation in reservoirs in the subsurface for oil and gas as well as CO2.

A course aimed at women working in the energy industry as geoscientists, with a technical focus on salt tectonics.

Explore natural deformation at outcrop and tie to subsurface data to aid in fracture prediction in unconventional and conventional reservoirs.

A comprehensive approach to fractures, teaching how to describe, measure and analyze them and to evaluate their impact on permeability in conventional and unconventional hydrocarbon reservoirs, and for EOR, CO2 sequestration and geothermal energy applications.

Learn to integrate all available data to develop an understanding of reservoir architecture and create fit-for-purpose reservoir maps for exploration, development and production projects.

Explains the factors that control mudrock reservoir quality and presents practical methods to evaluate reservoir heterogeneity

A concise overview of the basics of sedimentology, stratigraphy and structure of clastic units; and of the environments of deposition of clastic sediments.

A course that introduces the fundamentals of geomechanics followed by an in-depth look at the relevance to unconventionals especially how geomechanics relates to the effect of fabric and heterogeneity.

This course classifies unconventional reservoirs from a petroleum systems perspective and reinforces the concepts of depositional controls on reservoir architecture and fractures.

The course will examine the depositional facies and stratal geometries developed in deepwater slope and channel environments.

This field course will use outcrops from the Cretaceous and Jurassic of Utah to analyze some of the major challenges facing the storage of CO2 in subsurface formations.