Petrophysical Analysis with Petrel from Udemy

In this course, you would learn how to perform basic Petrophysical Analysis with real life data using Schlumberger Petrel Software. This is most useful to undergraduates and fresh graduates that have taken a course in Petrophysics and/or Formation Evaluation.

Master Petrophysical Analysis with Petrel in this detailed course for students of Petrophysics.

Learn how to navigate a leading Oil & Gas industry Software – Petrel within minutes.
Practice with real Project Data
Carryout Petrophysical Analysis in one click (Bonus Video) using Macros
Learn how to visualize well data on 2D and 3D window
Discover tricks for correlating well logs and creating well tops.

Equip yourself with Petrel skills which would be relevant for carrying out basic Petrophysical Analysis.

This course starts by revisiting some Petrophysical concepts just to bring you up to speed before working on real project data where you would first learn how to navigate Petrel’s interface before well log correlation and estimation of petrophysical properties.

After going through “the normal process” you would learn a shortcut using automated Macros at the concluding part of the course. This is what professionals use in the industry to speed up their work.

This course is well suited for complete beginners with a Background in Petrophysics and Formation Evaluation. The videos are clear and easy to understand. The data set can be used for practice.

Course Prerequisites:

Background Knowledge in Petrophysics or Formation Evaluation
Petrel Software installed on a compatible computer.

At the end of this course, Student would be able to:

Work with Petrel to perform well log correlation.
Estimate Petrophysical parameters such as porosity and permeability and water saturation from well logs.
Plot a usable fluid distribution Plot using Petrel.
Perform all petrophysical calculations in a click.

What's inside

Syllabus

Understand what the course is about and the necessary prerequisites

About Course

Course Requirments

Students would be able to recall key parameters and also have the opportunity to revisit any they might have forgotten.

Volume of Shale

Porosity

Water Saturation

Permeability

Summary

Students would have revised the basics of well logs and their different types.

Well logs

Gamma Ray Log

Resistivity Log

Density Log

Sonic Log

Neutron Log

Students would familiarize themselves with Petrel's tools and Interface

Petrel Interface

Project Setup

Petrel Calculator

Petrel Window

Petrel Tool Palette

Import and Export

Students would successfully load project data and begin well correlation.

Data Files

Data Loading

Tile Arrangement

Visualization in 2D & 3D

Visualization on Map Window

Well Correlation

Fluid Distribution Plot

Geology Effects on Logs

Students would be able to estimate relevant petrophysical parameters using Petrel.

Relevant Formulae

Volume of Shale Estimation

Porosity Estimation

Water Saturation Estimation

Permeability Estimation

Data Export

Students would learn a cool trick that can carry out previous sections in a single click.

Additional Learning

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Petrophysical Analysis with Petrel with these activities:

Review Petrophysics Fundamentals

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Reinforce your understanding of core petrophysical concepts before diving into Petrel-specific workflows. This will ensure a smoother learning experience and better comprehension of the software's functionalities.

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Review definitions of porosity, permeability, and saturation.
Study the different types of well logs and their applications.
Practice basic calculations for shale volume and water saturation.

Read 'Fundamentals of Petrophysics' by L.W. LeRoy

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Gain a deeper understanding of the theoretical concepts behind petrophysical analysis. This book will help you interpret the results generated by Petrel with greater confidence.

View Putting Knowledge to Work on Amazon

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Read the chapters on porosity, permeability, and fluid saturation.
Study the sections on well log interpretation and analysis.
Take notes on key concepts and formulas.

Follow Petrel Tutorials on Well Log Correlation

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Develop practical skills in well log correlation using Petrel's built-in tools. This will enhance your ability to identify geological features and reservoir zones within the software.

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Find tutorials on Schlumberger's Petrel support website.
Practice correlating well logs from different wells.
Experiment with different display options and settings.

Four other activities

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Practice Petrophysical Calculations in Petrel

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Reinforce your understanding of petrophysical calculations by performing them repeatedly within Petrel. This will improve your speed and accuracy in estimating reservoir properties.

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Use Petrel's calculator to compute shale volume, porosity, and water saturation.
Compare your results with published data for similar reservoirs.
Document your workflow and any challenges encountered.

Read 'Well Logging for Earth Scientists' by Darwin Ellis and Julian Singer

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Deepen your understanding of well logging principles and their application in petrophysical analysis. This book will help you interpret well log data with greater accuracy and confidence.

View Well Logging for Earth Scientists on Amazon

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Read the chapters on different types of well logs.
Study the sections on log interpretation and analysis.
Take notes on key concepts and formulas.

Create a Petrophysical Report

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Synthesize your knowledge and skills by creating a comprehensive petrophysical report using Petrel. This will demonstrate your ability to analyze well log data, estimate reservoir properties, and present your findings in a clear and concise manner.

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Import well log data into Petrel.
Perform well log correlation and identify key reservoir zones.
Estimate petrophysical parameters using appropriate methods.
Generate fluid distribution plots and interpret the results.
Write a report summarizing your findings and conclusions.

Analyze a Publicly Available Well Dataset

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Apply your Petrel skills to a real-world dataset to gain practical experience in petrophysical analysis. This will expose you to the challenges and complexities of working with actual well log data.

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Find a publicly available well dataset from a geological survey.
Import the data into Petrel and perform quality control checks.
Analyze the well logs and estimate reservoir properties.
Compare your results with published data for the same area.

Career center

Learners who complete Petrophysical Analysis with Petrel will develop knowledge and skills that may be useful to these careers:

Petrophysicist

The role of a Petrophysicist is central to understanding reservoir characteristics, and this course on Petrophysical Analysis with Petrel directly supports this. Petrophysicists analyze well logs and core data to determine porosity, permeability, and fluid saturation, all critical for reservoir modeling and simulation. This course helps build a strong foundation in using Petrel software to perform these analyses, which is a key tool in the oil and gas industry. Throughout this course, you can learn to load data, visualize well logs in 2D and 3D, and correlate well data to estimate petrophysical parameters. The course's focus on automated Macros also mirrors the industry trend of using automation to speed up workflows, further equipping you with practical skills. The well log analysis section, for instance, will be extremely helpful for a future Petrophysicist.

See salaries and explore the career path for Petrophysicist

Reservoir Engineer

Reservoir Engineers optimize hydrocarbon production from oil and gas reservoirs, and this course is incredibly valuable. Reservoir Engineers rely on accurate petrophysical data to build reservoir models and simulate fluid flow. This course on Petrophysical Analysis with Petrel would allow you to gain proficiency in using Petrel to estimate key petrophysical parameters such as porosity, permeability, and water saturation. Understanding how to visualize well data in 2D and 3D, as taught in the course, is essential for interpreting reservoir characteristics and making informed decisions. The practical exercises with real project data provide hands-on experience in applying petrophysical concepts, which is something you would encounter daily as a Reservoir Engineer.

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Geologist

Geologists interpret subsurface data to understand the geological structure and stratigraphy of oil and gas reservoirs, making this course worthwhile. Geologists use petrophysical data to characterize reservoir rocks and identify potential hydrocarbon traps. This course on Petrophysical Analysis with Petrel is an excellent tool to understand how to use Petrel software to perform well log correlation, estimate petrophysical parameters, and visualize data in 2D and 3D. For a Geologist, learning how to correlate well logs and identify geological effects on logs, as covered in the course, is particularly important. The fluid distribution plot exercise will also be valuable for understanding fluid contacts and reservoir compartmentalization.

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Data Scientist

Data Scientists in the oil and gas industry analyze large datasets to optimize reservoir performance and production, so this course has strong application. They use petrophysical data, among other data types, to build predictive models and improve decision-making. This course on Petrophysical Analysis with Petrel helps you learn to work with real-world data in Petrel and perform basic data analysis tasks. You would analyze, visualize, and interpret data to extract meaningful insights, which is also fundamental to the role of a Data Scientist. The course's emphasis on using automated Macros to speed up petrophysical calculations aligns with the Data Scientist's need for efficient data processing.

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Geophysicist

Geophysicists use seismic and well log data to image subsurface structures and identify potential hydrocarbon reservoirs. This course on Petrophysical Analysis with Petrel can be a useful tool to correlate well log data with seismic data, which is essential for reservoir characterization. As a Geophysicist, you would get a look into visualizing well data in Petrel and estimating petrophysical parameters, which helps inform your interpretation of seismic data. The course's focus on understanding geological effects on logs is also relevant for interpreting seismic anomalies and identifying potential drilling targets.

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Drilling Engineer

Drilling Engineers design and oversee the drilling of oil and gas wells. This course on Petrophysical Analysis with Petrel may be useful for understanding well log data and how it informs drilling decisions. Drilling Engineers utilize petrophysical data to optimize well placement and avoid drilling hazards. By learning how to interpret well logs and estimate petrophysical parameters in Petrel, you can gain a better understanding of the subsurface environment and make more informed decisions about drilling parameters. The course's focus on data visualization and well correlation may also be helpful for understanding subsurface geology and potential risks during drilling operations.

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Production Engineer

Production Engineers manage the production of oil and gas from wells. This course on Petrophysical Analysis with Petrel may provide a useful look into understanding how petrophysical data informs production optimization strategies. Production Engineers utilize petrophysical data to monitor reservoir performance and identify opportunities to enhance production. By learning how to estimate petrophysical parameters and analyze fluid distribution plots in Petrel, you can gain a better understanding of reservoir behavior and make more informed decisions about production operations. The course's focus on data visualization and well correlation may also be helpful for understanding reservoir connectivity and identifying potential production bottlenecks.

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Well Logging Engineer

Well Logging Engineers acquire and interpret well log data to characterize subsurface formations. This course on Petrophysical Analysis with Petrel may be practical for understanding how well log data is used to estimate petrophysical parameters. Well logging engineers are responsible for acquiring high-quality well log data and ensuring its accurate interpretation. By learning how to use Petrel to perform well log correlation, estimate petrophysical parameters, and visualize data, you can gain a better understanding of the data you collect and its implications for reservoir characterization. The course's focus on geological effects on logs is also relevant for understanding the factors that can influence well log measurements.

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Petroleum Engineering Technician

Petroleum Engineering Technicians assist engineers in various tasks related to oil and gas production. By learning how to use Petrel to perform basic petrophysical analysis, as covered in this course, you may be able to support engineers in their data analysis and interpretation efforts. Technicians work directly with data and software, performing tasks such as data entry, quality control, and basic analysis. The course's emphasis on practical skills, such as data loading, visualization, and well correlation, is well-suited for the hands-on nature of a technician's role. The automated Macros might enhance your proficiency.

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Subsurface Modeler

Subsurface Modelers create detailed 3D models of subsurface reservoirs, and this course provides a small piece of the puzzle. Subsurface Modelers use petrophysical data to populate their models with realistic reservoir properties. This course on Petrophysical Analysis with Petrel may be useful for understanding how petrophysical data is derived from well logs and how it can be used to constrain subsurface models. Learning how to estimate petrophysical parameters and visualize data in 3D will be helpful for understanding the data that goes into subsurface models. Individuals may need an advanced (master's or phd) degree.

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Geomodeler

Geomodelers build 3D representations of geological structures. Geomodelers commonly use petrophysical data to inform their models. While not directly focused on geomodeling software, this course on Petrophysical Analysis with Petrel may be a useful tool for appreciating the data that goes into geomodels. The course helps you with seeing how well logs are correlated and how petrophysical parameters are estimated, providing context for the data used. The ability to visualize data in 2D and 3D, as covered in the course, also contributes to a better understanding of spatial relationships within geological formations. Individuals may need an advanced (master's or phd) degree.

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Reservoir Geologist

Reservoir Geologists focus on the geological aspects of oil and gas reservoirs. This course on Petrophysical Analysis with Petrel may build on an existing understanding to refine your knowledge of reservoir characterization techniques using Petrel software. The course covers visualizing well data, correlating well logs, and creating fluid distribution plots. These skills may augment a Reservoir Geologist's ability to interpret reservoir characteristics and make informed decisions about reservoir management. The course provides a practical, hands-on approach to petrophysical analysis that would be relevant to a Reservoir Geologist's daily tasks. Individuals may need an advanced (master's or phd) degree.

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Data Analyst

Data Analysts examine data to identify trends and provide insights. While this course is focused on petrophysical analysis in the oil and gas industry, the core principles of data analysis may translate to other domains. This course on Petrophysical Analysis with Petrel may provide the building blocks for learning how to work with real-world data, perform basic data analysis tasks, and visualize data to extract meaningful insights. The course's emphasis on using automated Macros to speed up calculations may align with a Data Analyst's need for efficient data processing. Individuals may need an advanced (master's or phd) degree.

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Environmental Scientist

Environmental Scientists are involved in environmental monitoring and remediation. This course, though focused on petrophysics, has certain tangential applications that are helpful for the role of an Environmental Scientist. Understanding subsurface characteristics, as covered in the Petrophysical Analysis with Petrel course, may be relevant for assessing groundwater contamination and designing remediation strategies. Learning how to interpret well logs and estimate petrophysical parameters may provide insights into subsurface flow regimes and potential pathways for contaminant transport. The software skills may or may not find uses in this area. Individuals may need an advanced (master's or phd) degree.

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Science Technician

Science Technicians assist scientists in laboratory and field settings. This course on Petrophysical Analysis with Petrel may offer insight into the oil and gas industry and the types of data that are collected and analyzed. Science Technicians often work with specialized equipment and software, and the course's focus on using Petrel, an industry-standard software, may provide exposure to such tools and techniques. The course may help you learn to support scientists in their data analysis and interpretation efforts, contributing to the overall success of scientific projects. The visualization skills might be helpful in this role.

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Petrophysical Analysis with Petrel

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