Published 9/2024
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 720.13 MB | Duration: 1h 15m
Fundamentals of Open Hole
What you’ll learn
Understand Wireline Logging Fundamentals: Learn the fundamental reservoir’s properties: Lithology, Porosity, Permeability and Fluids Saturations.
Explain Spontaneous Potential Measurements: Learn to analyze spontaneous potential logs for identifying rock types and fluid contents
Utilize Resistivity Tools Effectively: Develop skills in using resistivity tools to measure formation resistivity and evaluate water saturation and hydrocarbons
Interpret Gamma Ray Logs: Gain proficiency in analyzing gamma ray logs to identify shale, assess lithology, and correlate data with other porosity measurements
Apply Neutron and Density Porosity Measurements: Understand how to use neutron and density porosity tools to calculate formation porosity
Analyze Acoustic Porosity Data: Learn to interpret acoustic porosity logs, calculate porosity from delta-t values, and address tool tilt and washouts
Requirements
No Prior Wireline Logging Experience Needed: The course is designed to cater to both beginners and experienced professionals in the field.
No specific software is needed; all course materials are accessible through standard web browsers.
A willingness to engage with the course content and apply learned concepts to real-world scenarios is essential for success.
Description
Oil & Gas – Wireline Logging Essential TrainingThis course offers a comprehensive view of the critical aspects of wireline logging, from understanding reservoir characteristics to describing logging tools like resistivity, gamma ray, neutron porosity, density porosity, and acoustic porosity tools. Whether you are starting your career in the oil and gas industry or seeking to expand your geophysical knowledge, this course will provide you with the expertise and confidence needed to excel. Don’t miss this opportunity to learn from a seasoned professional and elevate your skills—enroll now!What You’ll Learn:Chapter 1 – The Reservoir and the Logging Environment· Gain an understanding of reservoir characteristics and the logging environment.· Learn the significance of wireline logging in evaluating subsurface formations.Chapter 2 – Spontaneous Potential· Explore the principles of Spontaneous Potential (SP) logging.· Understand how SP measurements are used to identify lithology and fluid contacts.Chapter 3 – Resistivity Tools· Learn about the various resistivity tools and their applications.· Learn how to interpret resistivity logs to determine formation properties such as water saturation.Chapter 4 – Gamma Ray· Discover the workings of Gamma Ray tools and their role in identifying shale content.· Understand how Gamma Ray logs are used in conjunction with other measurements to enhance formation evaluation.Chapter 5 – Neutron Porosity· Understand the functionality and applications of Neutron Porosity tools.· Learn how to derive porosity values and identify gas-bearing formations using neutron logs.Chapter 6 – Density Porosity· Explore the principles behind Density Porosity tools and their measurements.· Learn to calculate formation porosity and lithology using bulk density and photoelectric factor measurements.Chapter 7 – Acoustic Porosity· Understand how Acoustic Porosity tools measure effective porosity through sound wave analysis.· Learn about the significance of delta-t values, types of acoustic waves, and the importance of tool centralization.Learning Objectives:· Understand Wireline Logging Fundamentals: Learn the fundamental reservoir’s properties: Lithology, Porosity, Permeability and Fluids Saturations.· Explain Spontaneous Potential Measurements: Learn to analyze spontaneous potential logs for identifying rock types and fluid contents.· Utilize Resistivity Tools Effectively: Develop skills in using resistivity tools to measure formation resistivity and evaluate water saturation and hydrocarbon potential.· Interpret Gamma Ray Logs: Gain proficiency in analyzing gamma ray logs to identify shale, assess lithology, and correlate data with other porosity measurements.· Apply Neutron and Density Porosity Measurements: Understand how to use neutron and density porosity tools to calculate formation porosity.· Analyze Acoustic Porosity Data: Learn to interpret acoustic porosity logs, calculate porosity from delta-t values, and address tool tilt and washouts.
Overview
Section 1: Welcome
Lecture 1 Course Introduction
Section 2: Chapter 1 – The Reservoir and the logging environment
Lecture 2 Fundamental Formation Properties
Section 3: Chapter 2 – Spontaneous Potential
Lecture 3 Spontaneous Potential
Section 4: Chapter 3 – Resistivity tools
Lecture 4 Resistivity tools
Section 5: Chapter 4 – Gamma rays
Lecture 5 Gamma rays
Section 6: Chapter 5 – Neutron Porosity
Lecture 6 Neutron Porosity
Section 7: Chapter 6 – Density Porosity
Lecture 7 Density Porosity
Section 8: Chapter 7 – Acoustic Porosity
Lecture 8 Acoustic Porosity
Energy Sector Professionals: Anyone involved in exploration, drilling, or production who needs to understand wireline logging to make informed decisions,Industry Newcomers: Those new to the oil and gas sector who are eager to build a solid foundation in wireline logging and its applications.,Field Engineers and Technicians: Individuals who work with logging tools and want a comprehensive overview of various logging methods and their applications.,Petroleum Engineering and Science Students: Learners pursuing degrees or certifications in relevant fields who wish to gain practical knowledge about logging technologies.,Petrophysicists and Geologists: Those who want to enhance their skills in interpreting logging data and applying it to reservoir analysis.
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