Tous les cours

Description: 

This course introduces geodynamics, tectonic styles and environments as well as practical seismic interpretation based on concepts of structural geology such as the principle of balancing structural mapping of trap geometries.  

Contents:  

• Introduction to geodynamics, tectonic styles and tectonic environments 
• Kinematic analysis 
• Application of conceptual model construction and impact on res-ervoir characterization 
• Impact on reservoir characterization 

Designed for : Geologists, geophysicists, reservoir engineers, petroleum engineers 

Description: 

This course studies the relationships between depositional facies, sedimentary structures to untangle the depositional environment. It Introduces the basic principles of sequence stratigraphy and shows how the principles can be applied to give the geoscientist a superior framework for the integration of geologic, geo-physical, and engineering data. 

Contents: 

• Introduction to Sedimentology 
• Types of Sequence Stratigraphic Units 
• Sequence Stratigraphic Surfaces 
• Exploration and Production Scales 

Designed for : Geologists, geophysicists, reservoir engineers, petroleum engineers .

Description : 

This course provides a thorough understanding of seismic reflection and usual applications. It aims at acquiring fundamental concepts in subsurface imaging for geological interpretation purposes. 

Contents: 

• Workshop Presentation & Objectives 
• Seismic Data Analysis & Qc 
• Well-To-Seismic Tying & Horizons Identification 
• Seismic Data Picking & Mapping - Potential Traps Detection 
• Velocity Model Construction & Time-To-Depth Conversion 
• Potential Reservoirs Analysis 
• Structural Prospects Identification & Evaluation 
• Summary, Synthesis & Wrap-Up 

Designed For: Geophysicists, geoscientists, and engineers who are involved in seismic interpretation 

Description : 

This course presents in simple terms the definition, types, and workflow of post-stack seismic inversions, pointing out their merits and limitations. This program can be done as a short course of 3 days for technical staff who are not supposed to calculate inversions, at work, but who want to acquire basic knowledge of the workflow, starting from the data collection to the inversion result QC. An advanced version of this course can be done in 8 days for geophysicists to give them a theoretical and practical understanding and know-how to perform post-stack inversions on real case studies. 

Contents: 

• General Introduction 
• Seismic improvement 
• Seismic Calibration of Wells and Seismic Attributes 
• Construction of the Structural Model 
• Post-Stack Inversions (Deterministic) 
• Post-Stack Inversions (Stochastic) 
• Analysis of seismic attributes and inversions 
• Summary, Synthesis & Wrap-Up 

Designed For: Geophysicists, geologists, engineers and technical staff who want to understand seismic inversions and learn how to apply these increasingly critical techniques. 

 Description: 

The main objective of this course is to present the whole working methodology of a reservoir characterization using pre-stack data, including data loading and quality control, angle-stack de-composition and conditioning, extraction and estimation of seismic parameters at well level, AVO modeling, calculation and analysis of AVO attributes, calculation and analysis of pre-stack seismic inversions. 

Contents: 

• General Introduction 
• Rock physics analysis 
• Angle stack decomposition and conditioning 
• AVO modeling and analysis 
• Pre-stack Inversion (extended elastic inversion) 
• Pre-stack attribute and inversions analysis 
• Summary, Synthesis & Wrap-Up 

Designed For: Geophysicists, geologists, engineers and technical staff who want to understand seismic inversions and learn how to apply these increasingly critical techniques 

Description:

This course provides an in-depth look at formation damage mechanisms and its impact on well productivity, as well as the methods used for prevention and treatments, including an overview of matrix treatments, in sandstones and carbonates, and hydraulic fracturing. This course also covers the laboratory techniques involved in formation damage testing and different well stimulation techniques to achieve the best reservoir-wellbore communications. The lecture will be accompanied by numerous training exercises and field examples.

Contents:

• Formation Damage
• Damage removal
• Modern Well Completion and Well Intervention

Designed For: Production engineers, Completion engineers, Operation engineers, Drilling engineers, Field Technicians, Reservoir engineers, Other technical or operational staff who are interested in learning wellbore damage mechanisms and mitigation methods.

Description:

This course aims to develop knowledge and skills of attendees in all the concepts related to sand production, causes, control methods and control equipment. Sand production prediction and management strategy are discussed and presented. Developing strategies for managing sand production for both production and water injection wells are also explained.

Contents:

• Sand Production
• Sand production management
• Sand Control Methods
• Sand control equipment
• Sand Production Prediction
• Surveillance strategy
• Sand Control in Heavy Oil Producing Wells
• Sand production in horizontal wells

Designed For: Production engineers, Completion engineers, Operation engineers, Drilling engineers, Field Technicians, Reservoir engineers, Other technical or operational staff who are dealing with sand control design, execution and monitoring.

Description: 

This course will provide theoretical and practical understanding of the gas lift system covering the fundamentals of well and reservoir performance, gas lift systems, equipment and design. Participants will learn how to improve efficiency and productivity using the gas lift technology. In addition, gas lift design exercise and application using real field data including the use of software programs.

Contents:

• Production System Analysis
• Gas Lift Technology
• Gas Lift system
• Gas Lift System Design

Designed For: Petroleum engineers, production engineers, reservoir engineers, other technical and operations staff from other disciplines, who are involved in the selection, design, operation or troubleshooting of gas lift systems.

Description:

This course is a complete package of topics that cover all aspects in relation to ESP; Fundamentals and Applications, ESP components and basic functions, equipment selection, installation, commissioning, operation monitoring, control and maintenance. Additionally, participants will learn how to implement the ESP design, and the procedures aspects to make better decisions after evaluating the design of a system for current conditions and how to make changes to face the declining reservoir conditions using computer software.

Contents:

• Fundamentals and Applications of ESP 
• ESP Pump Technology and Equipment
• ESP System Performance Calculations and Equipment Sizing
• ESP Monitoring, Control and Protection, Installation
• Commissioning, Operation and Maintenance

Designed For: Petroleum engineers, production engineers, other technical and operational staff who are involved in production optimization.

Description:

This course will allow the participant to become familiar with the PCP system, the advantages and limitations of this artificial lift method and its applications. After starting with the basics of reservoir inflow performance, equipment, system design, diagnosis, troubleshooting and optimization are described and discussed. Practical examples and problems are solved using industry computer software.

Contents:

• Introduction
• Reservoir and fluid properties
• Reservoir Performance – Inflow and Outflow Relationships
• Well productivity
• Advantages, limitations, and applications of PCP
• Surface Equipment
• Subsurface equipment
• Design of a PCP system
• Installation considerations and cautions
• Operation and monitoring of the PCP system, set-up of system protection
• Diagnosis and troubleshooting of the PCP system
• Failure analysis
• Optimization

Designed For: Production engineers, Operation engineers, Field Technicians, Reservoir engineers, Other technical or operational staff who are involved in the design, selection, operation, maintenance and analysis of PCP systems.

Description:

This course provides in-depth information on the productivity problems fundamentals that govern the oil and gas wells production performance, with the objective to develop skills to understand productivity problems and to identify solutions applying optimization technologies leading to enhance and optimize production. The course also outlines Flow assurance fundamentals including diagnostics, controls, and prevention of productivity

Contents:

• Well Production Enhancement and Optimization
• Well Surveillance and well problems
• Well Intervention for Productivity Enhancement
• Well Productivity Optimization
• Artificial Lift technologies

Designed For: Petroleum engineers, production engineers, other technical staff who are involved in well performance evaluation and modeling 

This course provides an in-depth understanding of the analytical approach used to quantify and optimize the flow of oil and gas production from the reservoir up to the surface. The understanding of the individual performance of these elements is the only way to improve or optimize the performance of the whole system.  Analytical models will be used to predict the performance of a segment of the system, using measured or inferred parameters. The curriculum is accompanied by numerous training exercises using commercial software.

Contents:

• Introduction 
• Lift Performance 
• Flowing Well Performance 
• Production Rate Decline Curves

• Optimizing Well Performance

Designed For: Petroleum engineers, production engineers, staff involved in the optimization of well productivity.

Description:

This extensive course will enable participants to understand the concepts and practical applications of modeling naturally flowing and artificial lift wells with Prosper, surface network modeling with GAP, reservoir modeling with MBAL and full field performance prediction with GAP and MBAL.

Contents:

• Integrated production system
• Reservoir fluid properties 
• Building well model 
• Inflow performance models​
• Introduction to MBAL
• Introduction to GAP
• Integrated modeling

Designed For: Petroleum Engineers, Production Engineers, Production Technologist

Description:

This course aims to cover a broad overview of the special core analysis (SCAL) concepts, from different laboratory experimental methods and techniques to the assessment of the laboratory results, then the development of representative reservoir properties to be used in classical reservoir engineering and numerical simulation reservoir models.

Contents:

• Reservoir Engineering and SCAL
• Coring Techniques
• SCAL Methods for Reserve Estimation and Model Initialization
• SCAL Methods for Reservoir Recovery
• Reservoir Characterization and Residual Saturations
• Specialized SCAL Methods

Designed For: All technical staff working on planning, performing, monitoring and using special core analyses for reservoir static and dynamic modelling

Description:

This course provides an understanding of the concepts and practices of well test analysis and the interpretation methods used to develop reservoir properties. Concepts and interpretation methods are accompanied and illustrated by numerous training exercises and practical field examples. Attendees are encouraged to bring interesting well test data for analysis and discussion in the class, using commercial software. A detailed course hand-out, which is an excellent reference, will be provided.

Contents:

• Fundamentals of well testing
• Well Test Analysis techniques
• Wellbore responses
• Reservoir models
• Boundary models
• Gas well testing

Designed For: Graduate reservoir engineers, petroleum engineers and all technical staff who are interested in well test interpretation.

Description:

This course is designed to give an overview of the fundamental and practical aspects of reservoir simulation. This includes reservoir engineering concepts, mathematical concepts, derivation of reservoir flow equations, finite difference approximations, and their solutions, and applications to predict reservoir performance. The curriculum will be based on relevant case studies and is accompanied by numerous training exercises and practical field examples.

Contents:

• Introduction to reservoir simulation
• Numerical discretization of the fluid flow equation
• 3D-Full field simulation model for a real reservoir

Designed For: Geoscientists and engineers who are interested to deepen their knowledge and get a practical insight in dynamic reservoir simulation.

Description:

This course demonstrates the process of the integrated reservoir modeling starting from the geological model Incorporation into the dynamic model and up to different model prediction scenarios. This course is designed to be a practical course.

Contents:

• Introduction
• Static geological modeling
• Rock & Fluid Properties Integration
• Integration of production data through history matching process
• Well modeling
• Surface Models

Designed For: Geoscientists and engineers who are involved in reservoir modeling

Description:

This course is designed to provide the fundamentals and principles of various enhanced oil recovery processes. A wide variety of topics will be presented including miscible and immiscible gas injection, chemical flood, and thermal flooding. These technologies will be discussed and guidelines will be presented for initial screening with each process corresponding to particular field conditions.

Contents:

• Overview of Enhanced Oil Recovery (EOR) Processes
• Reservoir Fluid Properties and Reservoir Characterization
• Chemical and Miscible EOR Techniques
• Thermal EOR Processes
• Other Advanced EOR Processes

Designed For: Geoscientists, reservoir engineers, petroleum engineers and production engineers who are interested in EOR projects.

Description: 

The aim of this course is to cover all the aspects required for a successful design, implementation, and operation of a water flooding project, including theoretical and operational practices.

Contents:

• Waterflood Data Management - Data Acquisition, Analysis and Integration
• Screening for Waterflooding
• Water injection system
• Recovery Processes
• Waterflood Design
• Waterflooding surveillance
• Case Studies

Designed For: Reservoir engineers, petroleum engineers and production engineers and other professionals who are involved in designing waterflood projects.

Description:

To improve communication and collaboration between teams, all employees and managers need to speak English, which is the language of the Oil and Gas industry. This training course will help candidates learn the technical words needed to understand and conduct a technical discussion.

Contents:

• Introduction
• English for Oil and Gas Exploration
• English for Oil and Gas Production
• Safety & emergencies
• Making a successful presentation
• Technical writing
• Test

Designed For: All Oil & Gas technicians, engineers and managers interested in improving their knowledge of the English language as well as their communication skills

Description:

To improve communication and collaboration between teams, all employees and managers need to speak English, which is the language of the Oil and Gas industry. This training course will help candidates learn the technical words needed to understand and conduct a technical discussion. This course allows to the geoscientists to enrich their vocabulary, improve their communication skills, and be prepared for the technical training courses in Geology, Geophysics and Petrophysics.

Contents:

• Introduction
• English for Field Geology
• Structural Geology and Sedimentology
• Geophysics
• Petrophysics
• Workshop
• Test

Designed For: Geologists, geophysicists, petrophysicists, and managers

Description:

To improve communication and collaboration between teams, all employees and managers need to speak English, which is the language of the Oil and Gas industry. This training course will help candidates learn the technical words needed to understand and conduct a technical discussion. This course is designed for reservoir and production engineers to enrich their vocabulary, improve their communication skills, and be prepared for the technical training courses listed in the “RESERVOIR ENGINEERING” and “PRODUCTION” sections of this catalogue.

Contents:

• Introduction
• English for Reservoir Engineering
• English for Production Engineering
• Workshop
• Test

Designed For:  Reservoir Engineers, production engineers, and managers

Description:

This training course will help candidates learn the technical words needed to understand and conduct a technical discussion. This course is designed for drilling engineers and the operational staff working in collaboration with them, to enrich their vocabulary, improve their communication skills and be prepared for the technical training courses listed in the “DRILLING ENGINEERING” sections of this catalogue.

Contents:

• Introduction
• Vocabulary
• Workshop
• Test

Designed For: Drilling engineers, Petroleum engineers, Reservoir Engineers and all the technical and operational staff who are involved in well design and drilling operations.

Description:

This course explains the proficiency needed for designing an optimum well completion program that focuses on maximizing field production and increasing recoverable reserves. It aims to deliver the concepts and procedures leading to an optimized completion design.

Contents:

• Reservoir Performance and Well Completion
• Completion Equipment
• Well Completion Design
• Completion Fluids
• Cased Hole Logs
• Stimulation
• PERFORATION
• Well Completion Planning
• Special completions

Designed For: Petroleum engineers, production engineers, geoscientists, completion engineers, reservoir and drilling engineers, other technical and operational staff from other disciplines, who are concerned with well completion design.

Description:

This course is designed to provide the participants with an in-depth knowledge on the drilling rig and the rig equipment.

Contents:

• DRILLING RIGS
• RIG FLOOR TRIPPING EQUIPMENTS
• BOP SYSTEM
• Mud Circulating System
• MOTION COMPENSATION SYSTEM
• PLATFORM TYPES
• MARINE RISERS
• THE DRILLING STRING
• DRILLING BITS

Designed For: Drilling engineers, Drilling supervisors, well engineers, Operation engineers and other technical or operational staff involved in well operations and workovers.

Description:

This course aims to provide the theoretical and practical aspects of drilling fluids technology. Detailed understanding will be conducted on the drilling fluids products, systems, chemistry, hydraulics, and rheology. The course will also cover the different components of the mud circulating system, drilling fluid testing protocols and equipment as well as solid control equipment and process. Hands-on laboratory Exercises may be included according to the client’s needs and requirements.

Contents:

• Basics of Drilling Fluids

• Drilling fluid products, systems, and chemistry
• Drilling fluid testing protocols and equipment
• System of Circulation
• Drilling Problems related to drilling fluids
• Solid control equipment and process.
• Health, Safety and the Environment

Designed For: Drilling engineers, Drilling supervisors, Drilling fluids engineers, Drilling fluids supervisors, Toolpushers, Geologists, Laboratory Fluid Technologists, and other technical or operational staff involved with drilling operations.

Description:

This course is designed to provide drilling and well engineers with the competency to design a drill string for a well.  Topics covered will include drill string components, drill string failures and mechanical properties of drill string materials as well as vertical and deviated drill string design. The course will emphasize also the methods and processes of drill string inspection. By the end of the course, attendees will be able to set design constraints and factors, perform an overload design, a fatigue design, monitor and mitigate BHA vibration as well as predict and manage buckling. The course will cover theory, hands-on exercises, and the application of case studies.

Contents:

• Design assumptions
• Design factors
• Drill string components
• Vertical to high angles well design
• Drill string design
• Mechanical properties
• Bottom hole assembly selection and design
• Torque and Drag
• Buckling
• Drillstring Failures and prevention
• Drillstring vibrations
• Bending strength ratio, stiffness ratio, and stress relief features.
• Drill string Wear
• Directional Drill string equipment and Design
• Drill string inspection methods and process
• Case study for designing a drill string.

Designed For: Drilling engineers and supervisors, Tool pushers, Well engineers, and all technical or operational staff involved with well planning and drilling operations.

Description:

This course aims to develop knowledge and skills of the attendees in the theoretical and practical concepts of casing design and the related calculations. Design concepts will cover both surface and subsea drilling environment. In addition, the topics covered during this course will include casing setting depth, geological evaluation, casing specification and classification, mechanical properties of casing material, procedures, formulas, and rule of thumb for developing a detailed Casing Program. The course will include practical exercises and evaluation of knowledge gained.

Contents:

• Casing Profile
• Preliminary casing design
• Casing specification and classification
• Mechanical properties of steel and API casing strengths
• Tubular Range Lengths & Color Coding
• Material Aspects and Performance Properties
• Casing Loading and Design Considerations
• Special Design Condition
• Casing Design Workshop: Complete well design

Designed For: Drilling engineers and supervisors, Well engineers, and all technical or operational staff involved with well planning and drilling operations.

Description:

This course provides an understanding of almost all aspects of cementing operations and slurry design including primary and remedial cementing operations, cement chemistry and rheology, cement Properties and additives. Field Calculations, mud removal-slurry displacement and cementing equipment will be also presented. The training course covers the operating procedures, job planning and design as well as cement quality evaluation. By the end of the course, participants will learn how to design, plan, calculate, and execute successful Cementing Operations.

Contents:

• Cementing
• Cement Chemistry
• Rheology
• Cement Properties
• Cement Additives
• Special purpose cements
• Field Calculations
• Mud removal-slurry displacement
• Cementing equipment and cement job design
• Cement Quality Evaluation

Designed For: Drilling engineer and supervisors, Well engineers, completion engineers and all technical or operational staff involved in cementing and drilling operations.

Description:

The course will cover the fundamentals aspects, design considerations, and operational concepts of directional drilling. Attendees will learn how to design and plan directional wells profiles, select bottom hole assemblies and understand directional drilling problems and learn how to manage these problems.

Contents:

• Introduction

• Well Planning and Directional Surveying
• Downhole Equipment
• Well Trajectory Planning
• Wellbore Stability and Drilling Hydraulics

Designed For: Drilling engineers and supervisors, toolpushers, drillers, managers and all technical and operational staff who are engaged in directional drilling technology.

Description:

This course introduces the basics of well construction and drilling operations. The objective of this course is to give an overview on all the techniques applied for the well construction which include well planning, rig sizing and section, casing design, Drillstring Design, drilling fluids, drill bits, directional drilling, cementing, drilling problems, well control and drilling economics. Emphasis will be on the conceptual design and detailed engineering design calculations involved in planning a well.

Contents:

• Drilling operations
• Well planning
• Rig Sizing
• Pore pressure and Temperature
• Casing Design and BOP pressure rating
• Drill string Design
• Bit Selection
• Drilling Fluid and Hydraulics
• Cementing Operations
• Well control
• Directional drilling
• Drilling economics
• HSE Requirement for Drilling

Designed For: Drilling engineers and supervisors, tool pushers, operation engineers and all technical and operational staff who are involved in well design, drilling operations and workovers.

Description:

This course aims to develop an understanding of the causes of stuck pipe and how stuck pipe prevention can be managed through the well design and construction process.  Topics covered will also include fishing techniques and tools, planning as well as the economics of fishing operations.

Contents:

• Introduction
• Rock mechanics
• Wellbore stress
• Stuck pipe: Definition, Causes and warning signs
• Well bore stability
• Stuck Pipe Mechanisms
• Loss of circulation
• Stuck Pipe Prevention Techniques and Tools
• Fishing: causes and prevention
• Fishing operation
• Fishing tool selection
• Fishing economics
• Fishing tool selection
• Fishing economics
• Drilling Jars
• Solids control
• Hole cleaning monitoring and management techniques

Designed For: Drilling engineers and supervisors, Completion engineers, drillers and all technical and operational staff who are engaged in drilling operations and workovers.

Description:

This course provides an understanding of almost all the aspects of coring technologies including the coring process, techniques and equipment. By the end of the course, participants will be able to choose the equipment accordingly to the operational objectives and constraints.

Contents:

• Introduction
• The standard core barrels
• Coring Solutions
• Oriented Coring
• Core Bits
• Coring Procedures
• Other coring technologies
• Core Analysis

Designed For: Drilling engineers and supervisors, operations engineers, well engineers and all technical and operational staff who are engaged in coring operations.

Description:

The course provides an understanding of the concepts and principles needed to apply well integrity and risk management practices during well construction and operations.

Contents:

• Fundamentals of well integrity management
• Life cycle Well Integrity
• Well Integrity Management System
• Well Failure Model
• Well Integrity Threats -Corrosion and Flow Assurance
• Well Integrity Monitoring, Inspection and Testing
• Well Integrity Risk Assessment

Designed For: Drilling professionals staff who are involved with well integrity. 

Description:

This course is designed for geoscientists and junior geophysicists who want to get familiar with a specific workflow, allowing to build realistic geological models, starting from data QC and seismic interpretation to seismic inversions and 3D Geological modeling. During this course, candidates will be practicing on Software

Contents:

• Introduction
• Acoustic Waves
• Seismic Acquisition and Processing
• Seismic Interpretation
• Velocity Modeling and Depth Conversion
• Seismic Attributes
• Seismic Inversions
• Geological Modeling

Designed For: Geologists, junior geophysicists

Description:

This extensive course will enable participants to understand the concepts and practical applications of modeling naturally flowing and artificial lift wells with Prosper, surface network modeling with GAP, reservoir modeling with MBAL and full field performance prediction with GAP and MBAL. Practical examples and exercises will be used to reinforce the understanding and application of the knowledge gained.

Contents:

• Integrated production system
• Reservoir fluid properties
• Building well model
• Inflow performance models
• Introduction to MBAL
• Introduction to GAP
• Integrated modeling

Designed For: Petroleum Engineers, Production Engineers, Production Technologist

Description:

This course aims to provide participants with a broad and focused understanding of well drilling techniques, operations, equipment, and design. A theoretical and hands on approach is used in the delivery of this intensive training program. Lectures are designed to give the participants a broad range of drilling engineering topics, detailed knowledge and skills needed in drilling engineering. Participants will be exposed to standard industry software, drilling simulators and opportunity to work in teams and individually. Participants will be assessed periodically throughout the program with a final assessment at the end of the training.

Contents:

• Fundamentals of Petroleum Geology and Geomechanics
• Basic Drilling and Well engineering
• Project Management and Well delivery process
• Conceptual well design and Drilling Data Analysis
• Advanced Casing Design
• Drilling Rig Selection
• Drilling Fluids and mud system
• Cementing design and operations
• BHA design
• Directional Drilling & Surveying
• Drill bits selection and drilling parameters
• Torque, drag and hydraulics
• Well construction & operations
• Drilling problems and remedials (losses, stuck pipe, fishing)
• Formation Evaluation Technologies (E-Logging, Coring, DST, Well Testing)
• Well control – Procedures & Principles
• Well control – Equipment
• Advanced well control (HPHT wells and subsea BOP)
• Well Integrity Concept & Management
• Well completion & design
•  Workover & Well Interventions (perforation, acidizing, fracking, sand control, well testing).
• Drilling HSE & Risk Assessment
• Exam & Evaluation

Designed For: Junior Drilling engineers, Drilling supervisors, Junior Well engineers, other technical staff with little or no prior experience in drilling and personnel who are involved in well planning and drilling operations & workover.

Description:

This multi-disciplinary training course provides a comprehensive technical knowledge of reservoir characterization. It is designed for geoscientists and engineers who are involved in multidisciplinary teams. It covers the following disciplines: Geology, geophysics, petrophysics and reservoir engineering. This course allows to the participants to get a better knowledge of the different disciplines and thus improve their productivity and problem-solving skills.

Contents:

• Geology

• Geophysics
• Petrophysics
• Reservoir Engineering

Designed For: Geologists, Geophysicists, Petro physicists, petroleum engineers and all G&G staff who want to improve their productivity and problem-solving skills by learning how to integrate data and results from different disciplines.

Description:

This multi-disciplinary training course provides a comprehensive technical knowledge of a full field development plan. It is designed for geoscientists and engineers who are involved in multidisciplinary teams. It covers the following disciplines: Geology, geophysics, petrophysics, reservoir engineering, drilling, management, petroleum economics and data sciences applied to the petroleum industry. This course allows to the participants to get a better knowledge of the different disciplines, and to get up to date with the newest technologies in the industry and thus improve their productivity and problem-solving skills. NB: This course is delivered per class (12 participants maximum) .

Contents:

• Geology

• Geophysics
• Petrophysics
• Reservoir Engineering
• Drilling
• Petroleum Economics
• Management
• Data Science

Designed For: Geologists, Geophysicists, Petro physicists, petroleum engineers and all G&G staff who want to improve their productivity and problem-solving skills and get up to date with the newest technologies.