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Petrel Petroleum System-based Play-toProspect Exploration: Integrated Exploration Techniques and Workflows using Petrel Exploration Geology Software The overall goal of this 5-day course is for the participant to learn how to do play evaluation that integrates all the elements of the petroleum system into geologically-based, objective, consistent and documented results that can be used to understand and rank opportunities. The participants will learn to keep their play and prospect evaluation ‘live’ and usable whenever new understanding or data becomes available. Foremost, they will understand why integrated petroleum system-based exploration is an industry best practice. The participant will learn how the fundamentals of petroleum systems and play concepts are an essential part of best practice Exploration. These fundamentals will be integrated in a series of exercises that demonstrate the basics of how play fairway mapping of the petroleum system elements is used to create play chance maps and assess play resources. The play level assessment of resources and play chance are then the basis for doing probabilistic volumetrics and determining the chance of success for the leads and prospects within the play. Participants will evaluate a concession area using the Petrel Exploration Geology suite of integrated petroleum system-based play to prospect exploration tools and workflows (Petroleum Systems Quick Look and Play to Prospect Risk). The concession analysis goes from initial area screening, to play evaluation and lead identification, to the final assessment of the prospects developed from the leads. It includes learning to keep play and prospect evaluations ‘live’ and usable whenever new understanding or data becomes available. The petroleum system-based workflows are all performed in Petrel using Schlumberger’s suite of Integrated Petroleum System-based Play to Prospect exploration tools and workflows (Petroleum Systems Quick Look and Play to Prospect Risk). The participants will know the theory behind the tools’ inputs and workflows and be able to use these tools to do play and prospect evaluations after this course.   

Agenda Audience Prerequisites

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Day 1 Petroleum System and Play to Prospect Fundamentals. Lecture and Exercises o

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Exploration Terminology, Organization, and Objectives

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Global Themes: What are Global Themes and how are they used in play identification Petroleum Systems and Petroleum Systems Modeling Basics

Day 2 Petroleum System and Play to Prospect Fundamentals. Lecture and Exercises o o

Play Identification and Evaluation: Play Fairway Mapping, Play Chance Mapping, and Resource Assessment Probabilistic Volumetrics and Prospect Chance of Success

Day 3 Concession Analysis Workshop o

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Initial Screening of Concession Area  Dry Hole Analysis  Quick evaluation of hydrocarbon generation potential Play Analysis and Lead Identification  Reservoir  Derivation of play fairway maps on rock property maps using geological concepts and sparse data  Convert Reservoir Play Fairway maps to Play Element Chance maps  Seal  Derivation of play fairway maps from seal facies and property maps using geological concepts and sparse data  Use pre-defined and user-defined compaction trends to create seal capacity maps in Petroleum Systems Quick Look.  Convert Seal Play Fairway maps to Play Element Chance maps  Trap  Use structural interpretation alternatives to construct a trap presence map from the input data and a conceptual model.  Charge generation  Learn how to estimate oil and gas generation masses, transformation ratios and maturities using Petroleum Systems Quick Look.  Understand how charge input data from other software can be used.  Use results obtained from Petroleum Systems Quick Look to create charge generation Play Chance maps using Play to Prospect Risk.  Charge Timing  Learn how to apply Petroleum Systems Quick Look to evaluate the charge generation versus trap timing relationship.

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Use results obtained from Petroleum Systems Quick Look to create charge timing Play Chance maps. Migration  Take the previously calculated reservoir, seal, trap, generation, and timing elements and simulate hydrocarbon flow paths in Petroleum Systems Quick Look. Evaluate  the effect on migration of open and closed fault scenarios.  Use a method to evaluate vertical migration. Play Chance Mapping and Lead Identification  Transform all property maps into Play Chance using Play to Prospect Risk Identify Leads

Day 4 Concession Analysis Workshop o

Lead Evaluation  Use all the data created to calculate the probabilistic volumes (in-place and recoverable volumes) and chance of success for identified leads  Learn fundamentals of probabilistic evaluation and input parameters  Analyze the leads using the probabilistic volumetric and chance of success outputs  In Place vs. Recoverable volumes  Chance of success and exceedence probability  Statistical summary to determine which inputs affect the output

Day 5 Concession Analysis Workshop o

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Prospect Evaluation and Ranking  Post-Seismic Prospect Evaluation  Revise Play Fairway mapping and Play Chance Mapping for new data  Re-evaluate prospects’ Probabilistic Volumetrics and Chance of Success  Perform some basic economic parameter analysis (economic limits, volumes, and chance of success) and discuss the outcome.  Rank Prospects

Oil & Gas Training and Competency Development

Course Offerings

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Petrotechnical  Reservoir Engineering  Drilling Engineering  Production Engineering  Geology  Geophysics  Petrophysics  Surface Facilities Design and Engineering  Information Management  Geomechanics  E&P Introduction and Fundamentals 

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Operations and Maintenance  Mechanical Technician Operations and Maintenance  Process Technician Operations and Maintenance  Instrumentation Technician Operations and Maintenance  Electrical Technician Operations and Maintenance 

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Management, Economics and Finance  Economics and Finance  Business and Project Management  Leadership and Communications 

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Technical Challenges  Unconventional Resources  Deepwater Exploration and Production  Field Development Planning  Carbonates and Fractured Reservoirs  Exploration Health Safety and Environment (HSE)  Health, Safety and Environment 

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Schlumberger Software  Platforms & Foundation Software  Petrel  Techlog  Avocet  Studio  Ocean

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Omega Drillbench ECLIPSE GeoX Integrated Asset Modeler InnerLogix MEPO Merak OFM OLGA PetroMod PIPESIM ProSource INTERSECT eSearch Mangrove

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Discipline  Reservoir Engineering  Drilling Engineering  Production Engineering  Geology  Geophysics  Petrophysics  Surface Facilities Design and Engineering  Information Management  Software Development  Unconventional Resources  Geomechanics  Economics and Finance  E&P Introduction and Fundamentals  Deepwater Exploration and Production  Field Development Planning Simulator Based Training  Drilling Engineering  Production Engineering  Surface Facilities  Business Simulator Virtual Classroom Training

Immersive Learning Programs Training Programs 

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Customized Curriculums

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Multidomain Shale Training Program Integrated Field Development Program Subsurface Integration Program International Oil & Gas Management Program Subsurface Engineering for New Hires Unconventional Resources Program Production Optimization Student Intern Integrated Training Program Masters Programs  Petroleum Engineering

Competency Management

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Competency Assessment Petrel Professional Certification

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Alternate Courses Petrel Exploration Geology: Integrated Evaluation of Petroleum Systems, Plays and Prospects

Course Progression Map - Exploration Geology

A Strategic Approach to Oil and Gas Exploration Advanced Petroleum Systems and Exploration and Development Geochemistry

Petrel Petroleum System-based Play-to-Prospect Exploration: Integrated Exploration Techniques and Workflows using Petrel Exploration Geology Software Skill

Trap and Seal Risking in Exploration and Development - A field and lecture workshop - Moab, Utah Economics of Petroleum Exploration

6|Page

Operations and Wellsite Geology Foundation Prospect Evaluation, Risks, and Volumes Basin Analysis and Petroleum Systems Modeling

7|Page