Complete Petrophysics Super Bundle – 39 Ross Crain Courses
$3,861.00 Original price was: $3,861.00.$1,497.00Current price is: $1,497.00.
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What you will learn
In this SUPER bundle you will get all 39 Petrophysics courses by world renowned Petrophysics expert, consultant and author Ross Crain.
It includes all of Ross Crain video courses, spreadsheets, quizzes and Crain’s Petrophysics Handbook modules covering theory, applications, examples, helpful tips, and trade secrets gleaned from the instructor’s 50+ year career. Full color course notes with Crain’s Rules, Computer-Ready Math, exercises, quizzes, and free access to all META/LOG spreadsheet software are included — a true multi-media learning experience.
You will have 1-year access license to watch lectures again and again. Each course comes with a certificate of completion that states the professional development hours upon watching the lectures and passing the quizzes. All together it amounts to 53.5 Hours of PDHs.
Individual courses sell for $99. Through this bundle you will get each of them for less than US$ 39. You will save US$ 2,340 by purchasing this bundle.
Description
This bundle includes all of Ross Crain video courses, spreadsheets, quizzes and handbook modules. It covers:
Courses 1-13 Petrophysics for Conventional Reservoirs: Introduction to Petrophysics , Logging Tools – Resistivity , Log Response , Visual Log Analysis , Quantitative Models, Quantitative Models 2, Lithology Models , Porosity, Gas Sands, Radioactive Sands, Fractured Reservoirs, Carbonate Reservoirs.
Courses 14-26 Practical Petrophysics for Geoscience Applications: Rock properties, Closure Stress, Ancient Logs, Russian Logs, Dipmeter Tools, Structural Dip, Stratigraphy, Seismic Petrophysics, Log Editing, Synthetic Seismograms, Inversion, Vertical Seismic Profiles, Amplitude Versus Offset, Seismic Models, Cement Bond / Cement Integrity.
Courses 27-39 Practical Petrophysics for Unconventional Reservoirs: Total Organic Carbon, Coal Assay, Coal Bed Methane, Shale Gas, Oil Shale (Imature), Tar / Oil Sand, Laminated Reservoirs, Tight Oil / Shale Oil , Tight Gas, Gas Hydrates, Metamorphic / Igneous, Geothermal Reservoirs, Potash Analysis.
Curriculum
- What is Integrated Petrophysics?
- What is a Log?
- Recording Logs at the Wellsite
- What Do Logs Look Like?
- What Logs Are Available?
- What Answers Can We Get From Logs?
- Uses of Log Analysis Answers
- Some Real World Examples
- Electrical Survey
- Spontaneous Potential
- Induction Logs
- Laterologs
- Micrologs and Microlaterologs
- Gamma Ray Logs
- Caliper Logs
- Thermal Decay Time Logs
- Sonic Logs
- Density and PE Logs
- Neutron Logs
- Nuclear Magnetic Log
- Elemental Capture Spectrography Log
- The Basic Petrophysical Analysis Model
- The Log Response Equation
- Definitions Needed to Understand Petrophysics
- Quicklook Analysis Rules
- Archie’s Laws
- Exercises 0
- Visual Analysis Basics
- Crain’s Rules for Visual Log Analysis
- Visual Analysis for Exercise 1
- Rules for Picking Log Data
- Picking Logs for Exercise 1
- Shale, Porosity, Water Saturation
- Permeability
- Cutoffs, Net Pay, Mappable Properties
- Productivity and Reserves
- Exercise 1
- Case History - Exercise 1
- Review Results for Exercise #1
- Compare Results to Ground Truth
- Integrate Logs, Cores, and Production History
- Revise Log Analysis Picks and Parameters to
- Match Ground Truth - Calibration
- Visual Analysis for Lithology
- Compatible Scale Logs
- Exercise 4
- Quantitative Analysis for Lithology
- 2- and 3- Mineral Models
- Pickett Plots
- Effect of Lithology on Water Saturation Parameters
- Shale corrected sonic log model
- Shale corrected density log model
- Shale corrected neutron log model
- Nuclear magnetic resonance porosity
- Maximum porosity model
- Water resistivity from DST or water catalog data
- Exercise 2
- Case History
- Compatible Scale Logs for Gas Identification
- Gas Effect in Sandstones and Shaly Sands
- Add gas correction to the shale corrected density neutron complex lithology porosity model
- Exercise 5: Shallow Gas in Clean and Shaly Sands
- Exercise 6: Gas, Depleted Gas, Tar Sands
- Exercise 7: Gas in Clean Sand, Shaly Sand, and Gas Shale/Silt
- Basics of Radioactive Sands
- Basics of Low Resistivity Pay Zones
- Exercises 8 Radioactive Sand
- Transition Zones
- Exercises 9 Low Resistivity Sand
- Fractured Reservoirs Basics
- Definition of Fractures
- Locating Fractures With Conventional Logs
- Locating Fractures With Image Logs
- Case Histories
- Quantifying Fractures
- Calculating Fracture Intensity
- The Double Porosity Model in Fractured Reservoirs
- Exercise 12
- Special Considerations in Carbonate Reservoir
- Review Fracture Identification Methods
- Secondary Porosity Index
- Gas in Dolomite Problem
- Exercise 3
- Case History
- Exercise 10
- Mechanical Properties Basics
- Elastic Constants Theory
- Log Editing Basics
- Calculating Mechanical Properties Of Rocks
- Shear Modulus N
- Poisson's Ratio PR
- Bulk Modulus Kb
- Bulk Compressibility Cb
- Biot’s Constant Alpha
- Young's Modulus Y
- Modulus of Compressibility Kc
- Pore Compressibility Kp or Kf
- Calibrating Dynamic to Static Constants
- Case Histories
- Exercise 14
- Calculating Normal Pore Pressure Gradient
- Calculating Abnormal Pressure Gradient
- Calculating Overburden Pressure Gradient
- Calculating Fracture Pressure and Closure Stress Gradient
- Calibrating Pressure Gradients
- Calculating Fracture Extent
- Gamma Ray Logging to Confirm Fracture Placement
- Fracture Orientation from Caliper
- Case Histories
- Exercise 15
- Introduction To Ancient Logs
- Electrical Survey (FS Log)
- Normal Curve
- Lateral Curve
- Spontaneous Potential (SP)
- Laterolog (LL3, LL7)
- Microlog (MLC) Microlaterolog (MLLC)
- Gamma Ray Log (GR)
- Neutron Log (GNT)
- Density Log
- Sonic Log
- Shale Volume, Porosity, Water Saturation
- Case Histories
- Exercise 16
- Introduction To Russian-Style Logs
- Electrical Survey (BKZ)
- Normal Curve (Potential, PZ)
- Lateral Curve (Gradient, GZ)
- Russian Core Analysis
- Gamma Ray Log (GK)
- Neutron Log (NGK)
- Density Log (GGK)
- Sonic Log (AK)
- Shale Volume, Porosity, Water Saturation
- Case Histories
- Exercise 17
- Introduction To Dip and Image Logs
- Evolution of the Dipmeter Concept
- Modern Dipmeters
- Basic Continuous Dipmeter Calculations
- High Resolution Dipmeter
- Determining Dip By Clustering and Pooling
- Pattern Recognition Dip Calculations
- Stratigraphic High Resolution Dipmeter
- Formation Imaging From Dipmeters
- Resistivity Microscanner Imaging
- Dipmeter Advisor - An Expert System
- Auxiliary Dipmeter Presentations
- Dip Subtraction and Rotation
- True Stratigraphic and True Vertical Thickness
- True Vertical Depth
- Exercise 18
- Plate Tectonics - The Big Picture
- Diastrophism - The Regional Picture
- Subsidence and the Creation of Geosynclines
- Folds and Faults
- Petroleum Traps Formed By Structures
- Analysis of Dipmeter Data For Structural Features
- Choosing and Using Regional Dip
- Deciding What The Patterns Mean
- Classic Dipmeter Patterns On Arrow Plots - The Cook Book
- Case Histories
- Exercise 19
- Depositional Environments
- Stratigraphic Traps
- Grain Size
- Dip Spread
- Current Bedding
- Curve Shape Analysis
- Dipmeter Patterns in Sedimentary Structures
- Choosing Regional Dip
- Subtracting Regional Dip
- Deciding What The Patterns Mean
- Sedimentary Models
- Classic Dipmeter Patterns For Stratigraphy - The Cookbook
- Case Histories
- Exercise 20
- Seismic Petrophysics Basics
- Seismic Modeling
- Log Modeling
- Logs Used in Seismic Interpretation
- The Shared-Earth Concept
- Exercise 21
- Log Editing Concepts
- Modeling Sonic and Density with Response Equation
- Seismic Check Shots
- Editing Sonic Logs With SRS and VSP Data
- Modeling Sonic and Density Logs With Trend Data
- Modeling Sonic and Density Logs From Resistivity
- Modeling Sonic and Density Logs From Neutron and Gamma Ray
- Modeling Sonic and Density Logs With Regression
- Modeling the Sonic Log Response From Biot-Gassmann Equations
- Gardner’s Model for Density from Sonic
- Exercise 22
- Seismic Modeling Basics
- Step By Step Procedure for Modeling
- Integrating the Sonic Log
- Acoustic Impedance and Reflection Coefficients
- Calculating Seismic Wavelets
- Convolution of Wavelet & Reflection Coefficients
- Case Histories: Synthetic Seismograms
- Exercise 23
- Seismic Attributes Basics
- Seismic Inversion Procedures
- Capturing Low Frequency Components
- Displaying Seismic Inversion Traces
- Case Histories: Seismic Inversion
- Porosity/Lithology From Shear Seismic
- Case Histories: Porosity/Lithology
- Vertical Seismic Profile Concepts
- Vertical Seismic Profiles On Wireline
- Vertical Seismic Profiles While Drilling
- Case Histories: Vertical Seismic Profiles
- Amplitude Versus Offset (AVO)
- Case Histories: Amplitude Versus Offset
- Exercise 24
- Seismic Concepts for Non-Geophysicists
- Seismic Data Acquisition
- Seismic Velocity Analysis Techniques
- Calculating Seismic Velocity From Logs
- Calculating Interval Velocity From Seismic
- Time to Depth Conversions
- Seismic Velocity and Dipping Beds
- Exercise 25 (Self Exam for Lectures 21 thru 25)
- Introduction
- Types of Cement Integrity Logs
- Temperature Logs
- Cement Bond Logs (CBL)
- Cement Bond-Variable Density Logs (CBL-VDL)
- Cement Mapping Logs (CMT, CET, PET)
- Ultrasonic Imaging Logs (USI, RBT)
- Casing / Tubing Inspection
- Ultrasonic Methods
- Electromagnetic Methods
- Multi-Finger Caliper Methods
- Case History
- Exercises 26
- Total Organic Carbon (TOC) Basics
- Visual Analysis of TOC
- Passey’s “DlogR” TOC Method
- Issler’s TOC Method
- TOC Analysis Examples
- Exercise 27
- Coal Basics
- Proximate Analysis
- Visual Analysis of Coal
- Coal Analysis Models
- Calculating Coal Properties from Logs
- Coal Analysis Examples
- Exercise 28
- Coal Bed Methane Basics
- Sorption Isotherms For Coal Bed Methane
- Gas Content from Core or Samples
- CBM Gas In Place
- CBM Gas Content Models
- CBM Analysis Example
- Exercise 29
- Shale Gas Basics
- Sorption Isotherms For Shale Gas
- Adsorbed Gas In Place
- Log Analysis Model for Gas Shale
- Shale Volume in Gas Shale
- Kerogen Voplume in Gas Shale
- Effective Porosity in Gas Shale
- Water Saturation in Gas Shale
- Calibration to Core Data
- Free Gas in Place
- Multi-Mineral Model for Gas Shales
- Gas Shale Analysis Example
- Exercise 30
- Oil Shale Basics
- Classifying Oil Shales
- Oil Yield from Fischer Assay
- Oil Yield From Log Analysis
- Multiple Regression Models
- Multi Mineral Models
- Oil Shale Analysis Examples
- Exercise 31
- Tar Sand Basics
- Tar Sand Math Models
- Dean Stark Core Analysis
- Tar Sand Permeability
- Tar Cutoffs and Pay Flags
- Tar In Place
- Tar Sand Analysis Examples
- Exercise 32
- Laminated Reservoir Basics
- Resistivity in Anisotropic Reservoirs
- 3-D Induction Logs
- Alternate Models – Laminated Shaly Sands
- Laminated Shaly Sand Quality Indicators
- Reservoir Quality from Hester’s Number
- Laminated Sand Analysis Example
- Exercise 33
- Tight Oil Basics
- Shale Volume
- Porosity
- Water Saturation
- Permeability
- Lithology
- Pyrite Corrections
- Reservoir Quality in Tight Oil
- Tight Oil Examples
- Exercise 34
- Tight Gas Basics
- Tight Gas Geology
- Shale Volume
- Porosity
- Porosity
- Water Saturation
- Permeability
- Lithology
- Pyrite Corrections
- Tight Gas Examples
- Exercise 35
- Permafrost Basics
- Gas Hydrate Basics
- Drilling and Production Hazards
- Log Analysis in Gas Hydrates
- Gas Hydrate Volume
- Gas Hydrate Example
- Exercise 36
- Igneous and Metamorphic Basics
- Metamorphic Rocks
- Igneous Rocks
- Metamorphic Sand / Granite Example
- Porous Fractured Granite Example
- Exercise 37
- Geothermal Reservoir Basics
- Types of Geothermal Reservoirs
- Geothermal Reservoirs in Canada and USA
- Log Analysis In Geothermal Reservoirs
- Geothermal Examples
- Exercise 38
- Potash Basics
- Properties of Potash
- Potash Analysis Concepts - Older Logs
- Potash Ore Grade from Gamma Ray Logs
- Potash Analysis Models – Older Logs
- Potash Analysis Models – Modern Logs
- Potash Analysis Examples –
- Exercise 39
Target Audience
- Petrophysicists,
- Log analysts,
- Geologists,
- Reservoir engineers,
- Well engineering professionals,
- Production engineers,
- University / Tech school students
- Petroleum engineers
Specification: Complete Petrophysics Super Bundle – 39 Ross Crain Courses
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About the Publisher
- Crain's Petrophysical Handbook
- Store Name: Crain's Petrophysical Handbook
- E. R. (Ross) Crain, P.Eng. is a retired Consulting Petrophysicist and Professional Engineer living in Calgary, Alberta, Canada. In a career that spans 50+ years, he has specialized in integrated petro... Read More > Read More
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$3,861.00 Original price was: $3,861.00.$1,497.00Current price is: $1,497.00.
$3,861.00 Original price was: $3,861.00.$1,497.00Current price is: $1,497.00.
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Albert B –
I am a chemical engineer that has been in the oil patch for 25 years. I did not take a single geology class at University – everything I know I have learned from you!
Tom O’Dean –
Just want to say thank you for making so much of your knowledge of petrophysics available. As a new petrophysicist in the Chevron training program, it is my go-to for filling in the blanks when I need something just simply stated and easy to find.
Javier J –
Excellent Course.
Daniel Lacono –
You have supplied me and the rest of the oil and gas industry an amount of information that cannot be quantified.
George P –
I appreciate my Pocket Pal and Cement Integrity Tools. It’s truly amazing the way you make petroleum engineering understandable.
Leah L –
Love your work. Always thought of you as one of our great industry mentors.
Dan Ibach –
I highly recommend this course! Crain’s teaching style is clear and effective, and the content is gold for any budding petrophysicist.