Oil & Gas Training
and Competency Development

Location Bandung, Indonesia
Start11 Dec 2017
End15 Dec 2017
Discipline Geology ,
Unconventional Resources ,
Exploration
LevelAdvanced
Duration5 Days
CostUSD 4,500.00
Delivery Mechanism Classroom
Print Email

Course Progression Map - abc

Petroleum Systems and Exploration and Development Geochemistry

4.5 Average client rating (based on 67 attendee reviews)

This five-day course focuses on the dynamic petroleum system concept, exploration geochemistry of conventional and unconventional petroleum, and reservoir geochemistry. The course is designed for exploration, production, and development geologists. Lectures show how geochemistry can reduce the risk associated with petroleum exploration, 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. It provides interpretive guidelines for sample collection and project initiation, how to evaluate prospective source rocks, and how to define petroleum systems through oil-oil and oil-source rock correlation. Case studies and exercises illustrate how geochemistry can be used to solve exploration, production, and development problems while minimizing cost. The lectures and discussions are designed to improve basic understanding of the processes that control petroleum quality in reservoir rocks and the bulk, molecular, and isotopic tools that facilitate that understanding. Discussions cover TOC, Rock-Eval pyrolysis, vitrinite reflectance, thermal alteration index, kerogen elemental analysis, geochemical logs and maps, reconstructed generative potential calculations, water analysis, gas chromatography and gas chromatography-mass spectrometry of oil and gas, compound-specific isotope analyses (CSIA) of light hydrocarbons, biomarkers, and diamondoids, and chemometrics to classify oil families, identify compartments, and de-convolute mixed oils. Pitfalls to correct interpretations are illustrated using in-class exercises.

  • Agenda
  • Topics
  • Audience
  • Prerequisites
  • Location
  • Agenda

    Day 1

    Module 1. The Dynamic Petroleum System Concept

    • Objectives, Terms, Nomenclature
    • Petroleum System Folio Sheet: Map and Cross Section at Critical Moment, Table of Accumulations, Event Chart, Burial History Chart
    • Timing of Petroleum System Events and Processes
    • Introduction to Basin and Petroleum System Models
    • Origin and Preservation of Sedimentary Organic Matter
    • Project Initiation and Sample Collection, Exercises

    Module 2. Evaluating Source Rocks

    • Vitrinite Reflectance: Thermal Maturity, Calibration, Kinetics
    • TOC, Rock-Eval Pyrolysis, Geochemical Logs
    • Fractional Conversion, Original TOC, Expelled Petroleum, Expulsion Efficiency
    • Interpretive Pitfalls; Exercises

    Day 2

    Module 3. Exploration Geochemistry

    • Gas Chromatography, Stable Isotopes, Surface Geochemical Exploration
    • Semivariograms and Spatial Significance of Data
    • Biomarker Separation and Analysis
    • Source- and Age-Related Parameters, Introduction to Oil-Oil and Oil-Source Rock Correlation
    • Interpretive Pitfalls; Exercises

    Day 3

    Module 4. Preservation and Destruction of Accumulations

    • Thermal Maturity Parameters; Cracking, Thermochemical Sulfate Reduction
    • Biodegradation Parameters
    • Ancillary Geochemical Tools; Semi-Volatile Aromatics, Light Hydrocarbons, Mud Gas Isotope Logging, Fluid Inclusion Volatiles, Diamondoids
    • Chemometrics for Correlation, Mixture Analysis
    • Interpretive Pitfalls; Exercises
    • Exploration Geochemistry Case Studies

    Day 4

    Module 5. Reservoir Geochemistry

    • Objectives, Terms, Nomenclature
    • Migration and Compartments
    • Migration Mechanisms: Diffusion, Solution, Gas-Phase, Oil-Phase
    • Sample Collection/Water Chemistry
    • Gravity Segregation, Biodegradation/Water Washing
    • Phase Changes: Deasphalting, Wax Crystallization, Retrograde Condensation, Evaporative Fractionation
    • Thermal Maturation, TSR, Reactive Polar Precipitation
    • Interpretive Pitfalls; Exercises

    Day 5

    Module 6. Gas and Oil Fingerprinting, Production Allocation

    • Gas Chromatography, Stable Isotopes
    • Oil Fingerprinting: Reservoir Compartments
    • Leaky Casing, Production Allocation
    • Interpretive Pitfalls; Exercises
    • Hydrocrbon and Non-Hydrocarbon Gases
    • Gas Shale and Other Unconventionals
    • Reservoir Geochemistry Case Studies
  • Topics

    Understand the basic concepts of petroleum geochemistry

    Understand basic geochemical measurements, e.g., Rock-Eval pyrolysis/TOC, vitrinite reflectance, GC, GC-MS, GC-MS-MS, and CSIA, 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 water, oil, and rock samples and how evaluate data quality

    Use biomarkers, isotopes, and chemometrics to correlate oils and source rocks, establish petroleum systems, and assess thermal maturity or biodegradation

    Understand the fundamentals of water analysis

    Learn how down-hole formation testing can provide in situ measures of fluid properties

    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 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

  • Audience

    Geoscientists needing knowledge of Petroleum Systems,Petroleum Geochemistry and Basin Modeling

  • Prerequisites

    Knowlege of Basic Petroleum Geology and Petroleum Systems

  • Prerequisites

  • Location

    Bandung

    Bandung is the capital of West Java province in Indonesia. Located 768 m (2,520 ft) above sea level, Bandung has relatively year-around cooler temperature than most other Indonesian cities

    Bandung Sky Line

    Bandung is renowned for its large stock of Dutch colonial architecture; most notably the tropical Art Deco architectural style. The modern and native architectural blending was followed by several Dutch architects that have shaped the city landmarks. In the 1930s, Bandung was known also as the city of architecture laboratory because of many Dutch architects made some experiments with new architectural designs.

    Bandung has served for popular weekend-break destination for people living in Jakarta for many reasons. The cooler climate of highland plantation area, the varieties of food, the cheaper fashion shops located in factory outlets and distros, golf courses, and the friendliness of local people have become the main attraction of the city.

    Bandung Husein Sastranegara International Airport serves direct flights to Batam, Surabaya, Yogyakarta, Denpasar, Palembang and Padang and also international services from Kuala Lumpur and Singapore Changi Airport. The airport is located nearby the Dirgantara aerospace complex and Dirgantara Fairground.

    From Wikitravel licensed under Creative Commons Attribution-ShareAlike 3.0

    • Timezone : GMT+07:00, Bangkok (Bangkok)
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