Professional Training Programs
Strategic Professional Training Programs for the Energy Sector.
We develop pre-established and customized Certificate Program in Geosciences, Reservoir Engineering, and Management, tailored to the specific needs of each client. Our programs combine theory and practice, facilitating continuous learning and professional growth.
Diploma Programs Catalog:
Description
The Formation Evaluation Program (FEP) is a modular training plan designed to train professionals in the comprehensive evaluation of formations and the generation of petrophysical models applicable to specific areas of an asset.
Format: Available online, in-person learning or hybrid (a blend of online and in-person learning).
Main Objective
To contribute to the needs of business units by training professionals capable of validating databases and applying integrated methodologies for generating petrophysical models, ensuring applicability, quality of results, and follow-up.
Structure and Dynamics
Combines theoretical and practical training, , personalized follow-up , and the development of eal-world projects to ensure the effective transfer of knowledge and the generation of applicable models.
Intensive training in geosciences and reservoirs, focused on the validation and development of high-certainty databases.
Generation of integrated petrophysical models through pilot projects in selected areas.
Specialized workshops for groups of up to 10 participants.
Ongoing monitoring of pilot projects, with mid-term and final reviews, including presentations and feedback.
Participants
Candidate profiles are reviewed by the organizers. A minimum of two people may be accepted per pilot project.
Prerequisites
Although the program includes preparatory courses, it is recommended that candidates have prior fundamental knowledge in:
Geosciences
Log Analysis
Rock and Fluid Properties
Well Logging
Basic to Intermediate English Reading
Learning Outcomes
Efficient validation and development of high-certainty databases in integrated projects.
Application of specialized workflows for generating integrated petrophysical models.
Description
The Geological Reservoir Characterization Program (ProPER) is a modular training program focused on the geological characterization of reservoirs.
Format: Alternating between online and/or in-person learning.
Target Audience: Professionals in geosciences, reservoir engineering, production, and asset management.
Main Objective
To generate geological and reservoir models that are 100% applicable to business units by acquiring skills in:
Validation and development of high-certainty databases.
Application of integrated workflows in geological reservoir modeling.
Structure and Dynamics
The content includes training in reservoir characterization and model generation:
Sedimentological, stratigraphic, structural, petrophysical, and geostatistical models.
Integration of reservoir engineering, in-situ hydrocarbons, and development plans.
Participants will work on pilot projects for selected business units, performing quality control and and generating databases for integrated reservoir projects.
Participants
The target audience includes geologists, geophysicists, reservoir and production engineers, petrophysicists, managers, and team leaders. The maximum number of participants per project is four.
Prerequisites
Prerequisites include knowledge of:
Production Geology
Reservoir Engineering Fundamentals
Log Analysis Software
Rock and Fluid Properties
Formation Evaluation
Subsurface Mapping
Basic English Reading Comprehension
Learning Outcomes
Participants will learn to:
Validate and build high-certainty databases.
Apply integrated workflows in geological reservoir modeling.
Description
This certificate program is primarily based on PVT Analysis and Equations of State for Compositional SimulationIt is designed to train professionals capable of characterizing reservoir fluids and performing numerical simulation in condensate and volatile oil reservoirs.
Format: It combines lectures, practical workshops, and mentor-led projectsutilizing real data from clients or stakeholders whenever possible.
Main Objective
To train professionals capable of:
Reservoir fluids characterization.
Planning optimal production schemes.
Modeling pressure-production behavior in condensate and volatile oil reservoirs.
The program emphasizes the use of calibrated equations of state, PVT analysis, compositional simulation and the nterpretation of results for technical and economic decision-making.
Structure and Dynamics
This course combines theoretical training, practical workshops, and personalized support. It includes:
Training on reservoir fluid characterization and the fundamentals of equations of state.
Interactive, project-based workshops using PVT reports from real-world cases..
Coaching and quality assurance in the development of compositional models and numerical simulation.
Follow-up meetings and regular presentations to mentors and project leaders.
Participants
This course is designed for engineers and professionals responsible for evaluating the production potential, recovery design, and economics of condensate and volatile oil reservoirs, especially those involved in recovery projects or compositional simulation.
Prerequisites
Prior training is required in:
Reservoir engineering and numerical simulation.
Basic knowledge of physical chemistry and phase behavior.
Learning Outcomes
Participants will learn to:
Characterize reservoir fluids and validate PVT data.
Apply equations of state and compositional simulation techniques.
Analyze and model reservoir behavior using specialized software.
Present and defend technical results to management.
Description
The advanced certificate program offers specialized training in rigorous methods and techniques for the economic valuation of assets within the hydrocarbon industry, covering the upstream, midstream and downstream segments.
Format: It focuses on the practical use of financial models, including Discounted Cash Flow (DCF) analysis and Real Options Based Valuation.
Main Objective
To train professionals capable of quantifying, modeling and analyzing the economic value of hydrocarbon assets to support strategic decision-making for investment, divestment or acquisition.
Structure and Dynamics
The program focuses on the development of practical skills and models, encompassing:
Practical use of financial models (FCD and Real Options).
Quantification of reserves and associated risks.
Building robust economic models for decision-making.
Participants
Aimed at professionals in the energy (hydrocarbons) industry who are involved in the areas of strategic planning, project evaluation.
Prerequisites
Candidates are recommended to have:
Knowledge of corporate finance and project evaluation (Not a limiting factor).
Familiarity with the hydrocarbon industry and its segments (upstream, midstream, downstream).
Learning Outcomes
Participants will learn to:
Quantify the reserves using uncertainty ranges (P90, P50, P10).
Apply the FCD analysis and the Real Options Based Valuation.
Build economic models to support investment, divestment, or acquisition decisions.
Description
The diploma program is structured to offer professionals from non-oil disciplines a comprehensive and practical understanding of the value chain of the hydrocarbon industry.
Emphasis: To cover the fundamental concepts of the sector in an accessible way, from exploration to commercialization.
Main Objective
Clarify the technical terminology and operational processes of the sector, enabling participants to:
Interact effectively with technical teams.
Interpreting key industry reports.
Understanding the impact of operational and economic decisions.
This facilitates stronger multidisciplinary collaboration and better strategic decision-making within the energy company.
Structure and Dynamics
The content covers the entire value chain in an accessible way:
Exploration: Basic geology and seismic concepts.
Upstream: Well Drilling and Production.
Midstream and Downstream: Refining and Marketing of oil and gas.
Participants
Professionals from non-oil disciplines (e.g., Legal, HR, Finance, Accounting, Purchasing, IT) who work in the energy industry and need to understand the technical-operational context of the business.
Prerequisites
There are no technical prerequisites in petroleum; only an interest or need to understand the hydrocarbon value chain from a non-technical perspective is required.
Learning Outcomes
Participants will learn to:
Understand the fundamental concepts and technical terminology of the sector.
Understanding the sequence of operational processes (Exploration, Drilling, Production, Refining, Marketing).
Improve interaction and collaboration with technical teams.
