/Petrophysics-Python-Series

A series of Jupyter notebooks showing how to load well log and petrophysical data in python.

Primary LanguageLassoMIT LicenseMIT

⚠️ During 2023 this repo is planned to be restructured and tidied up. A number of notebooks are currently lacking commentary and will be updated gradually.

Petrophysics-Python-Series

This series of Jupyter Notebooks take you through various aspects of working with Python and Petrophysical data. A number of the notebooks are accompanied by either a Blog Post or a Medium article.

Check out the binder button below if you want to run these notebooks without needing to download them or install Python.

Binder

For citation please use: McDonald, A., 2021, Python and Petrophysics Notebook Series. https://github.com/andymcdgeo/Petrophysics-Python-Series DOI

Series Contents:

  1. Loading and Displaying Well Data - Medium Link
  2. Displaying a Well Plot with matplotlib
  3. Displaying histograms and crossplots
  4. Displaying core data and deriving a regression
  5. Petrophysical Calculations
  6. Displaying Formations on Log Plots
  7. Working with LASIO
  8. Curve Normalization - Medium Link
  9. Visualising Data Coverage - Multi Well - Medium Link
  10. Exploratory Data Analysis with Well Log Data - Medium Link
  11. Deriving a Porosity - Permeability Relationship - Medium Link
  12. Enhancing Log Plots With Plot Fills - Medium Link
  13. Displaying LWD Image Data - Medium Link
  14. Displaying Lithology Data on a Well Log Plot Using Python Medium Link
  15. Loading Multiple LAS Files Medium Link
  16. Adding Formation Data to a Log Plot Medium Link
  17. Working with DLIS Files Using DLISIO - Medium Link
  18. How to use Unsupervised Learning to Cluster Well Log Data using Python - Medium
  19. Exploring Well Log Data Using the Welly Python Library - Medium Link
  20. Creating a Core Data Dashboard Using Matplotlib's subplot2grid functionality - Medium Link
  21. Identifying Outliers in Well Log Data Using Boxplots in Matplotlib - Medium Link

Data Sets Used

Data for each workbook can be found with this repo's Data sub folder.

All data has been obtained from publicly accessible data repositories. Details for the origins of each file is presented below.

Equinor Volve Dataset

  • 15_9-19.csv
  • 15_9-19A-CORE.csv
  • 15-9-19_SR_COMP.LAS
  • 15_19_F1B_WLC_PETRO_COMPUTED_INPUT_1
  • VolveWells.csv

Information on the Volve dataset can be found at: https://www.equinor.com/en/what-we-do/norwegian-continental-shelf-platforms/volve.html

NLOG - Netherlands Well Log and Data Repository

  • L0509WellData.csv
  • L0509_comp.las
  • P11-A-02_Composite_MEM_Image_NF.las
  • P11-A-02_SURV.csv
  • NLOG_LIS_LAS_7857_FMS_DSI_MAIN_LOG.DLIS

Dutch offshore and onshore well data can be accessed from: https://nlog.nl/en

Force 2020 XEEK

  • xeek_train_subset.csv

Data was provided by the FORCE Machine Learning competition with well logs and seismic 2020”
Bormann P., Aursand P., Dilib F., Dischington P., Manral S. 2020. 2020 FORCE Machine Learning Contest. https://github.com/bolgebrygg/Force-2020-Machine-Learning-competition

FORCE: Machine Predicted Lithology https://xeek.ai/challenges/force-well-logs/overview

Suggestions

If you have any suggestions of what you would like to see, please raise a new issue and I will put something together.