[Techlog Exercises] data set utilizing petrophysical data

The nature of the data at the bottom of the well is that the data may be inaccessible to non-experts. This, along with the fact that publicly available datasets are often improper, disorganized and sometimes unconventional, can make using downhole data an unattractive and arduous task.

One example of this complexity is the Schlumberger online recall menu, which contains> 50,000 entries (Rider and Kennedy, 2011). Additional stiffeners can also be created through modified acquisitions and acquisitions or through company reminiscence art, which greatly expands the length of this list.

In an effort to provide a more intuitive introduction to downhole logging data, the Techlog training dataset was developed using data obtained during the integrated surround drilling program
Expedition 346.

Techlog training data set utilizing petrophysical data

Flight 346, which set sail in 2013, aims to explore the climate system surrounding the marginal sea that borders Japan, the Eurasian continent and the Korean peninsula. Initial mission research focused on the following areas:

1. Determination of the impact of the Himalayan and Tibetan plateau elevation on the location of the Western Plane throughout the Liocene and Pleistocene.
2. Determine the timing and appearance of tropical and decimal fluctuations in the summer monsoons in East Asia.
3. Reconstruction of old productivity changes and water circulation at the bottom during the past five years.
4. Rebuilding the Yangtze River drainage history.

Although the bottom logging program in Expedition 346 contributed to all mission research goals, the primary contribution was to rebuilding old changes in productivity by providing continuous data throughout the entire depth of the pit.

Previous scientific drilling campaigns in the region, the legs of the ocean drilling program (ODP) 127 (Summer 1989) and 128 (Fall 1989), covered a wide range of drilling targets in the marginal sea, such as volcanoes, massive sulfide deposits and decoding the nature of the basin extension.

[Techlog Exercises] training data set

Techlog Using a downhole log and baseline data generated during the 346 Asian Seasonal Integrated Ocean Exploration Expedition Campaign, a new set of harmonized training data was produced and made available in the Ocean Drill Log database.

The end users of this data set are intended to include interested researchers using Schlumberger's Techlog software package, the main software used in both R / V JOIDES Resolution and D / V Chikyu, to integrate and evaluate the lower log and supplementary data.

Techlog training data set

Techlog training data set To help with this, the standard IODP tools and abbreviations have been maintained throughout the processing of the data. The dataset has been optimized to work seamlessly on computers with the same minimum specifications as Schlumberger Techlog (quad-core processor with 3 GHz frequency and 8 GB RAM) and has optional additional data sets for higher spec systems.

Well log data is a strong geological data type that enables a direct comparison of laboratory sample measurements and location of measurements made at the bottom of the well. Large amounts of publicly available well record data were generated by the Integrated Ocean Drilling Program (IODP) and its earlier stages.

During these programs, samples were excavated, recorded, and collected from nearly every geological ocean around the world's oceans (Goldberg, 1997) .However, much data can be discovered without being discovered and out of reach of geologists because of the lack of knowledge of the existence of data, the lack of Understand how log data is interpreted, and what software is missing for use in interpretation.

To compound this problem, obtaining the skills needed to run software packages to download, analyze, and interpret registry data can be costly and time consuming. Although many registry interpreter providers offer programs at subsidized prices, training to run the program usually requires fees.

Furthermore, after the completion of formal training, there are few opportunities for researchers to expand the complex training schedule and associated data. This can lead to an environment with accessible, appropriately formatted data in which researchers can gain experience.

[Techlog Exercises] Techlog Basics

In this article we will mention on our website the basics of Techlog, in this course, you discover TechlogTM Interactive Suite, which brings all the data of the well together in a wellbore collaborative platform environment. You will learn about the data model within the Techlog platform and basic utilities to import, export, process and display data in the system, including basic images. It explores the principles behind the powerful application workflow interface by creating workflows for single and mixed use.

Techlog Basics

• Explore the Techlog interface and data structure.
• Import and export data.
• Data management and quality control techniques.
• Multiwell management implementation.
• Changing departments, units, families, and pseudonyms.
• Manage references.
• Visualization using basic and advanced planning tools for single and multiple layouts and plots.
• Manage regions, region and tags.
• Depth interaction and interactive options.
• Data editor.
• 2D and 3D well tracks.
• The base map.
• Depth conversion tool and Variable pasting tool.
• Create an interpretation workflow using the application workflow interface, AWI.
• Report Editor.

The Techlog Team

1. Development and Exploration Log Analysts.
2. Petrophysicists.
3. Geologists.
4. Petroleum engineers.
5. Managers.
6. Technical personnel with no previous experience using Techlog.

Prerequisites for Techlog

Anyone interested in using Techlog to perform high-level analyzes of basic data types, records, images and related data types together in one program.

[Techlog Exercises] New features in the latest Techlog update

On our site, we remind you of all new developments in the Techlog program, as the Techlog Wellbore software platform has been constantly developed and tested over the past 19 years to reach the best possible efficiency. The result is a well-centric pilot platform that is faster, more usable and more stable than ever.

This new version of the Techlog platform includes significant improvements in usability and productivity, such as the fully functional AWI plots in the Techlog Quanti module, enhanced well filtering capabilities, polygon lifecycle management, and improved LogView headers.

Customers can now customize and expand workflows in the new Python 3 workspace. Techlog 2019.1 also offers binary compatibility with Techlog 2018 releases, so Ocean plug-in developers and components don't need to upgrade or recompile.

The new revamped Python AWI now provides unprecedented performance especially when handling areas. The performance of the Multiwell graph charts, region liberalization and Monte Carlo calculation on porosity saturation methods has been greatly improved.

Within the Studio E&P Knowledge Platform, the new background publishing feature greatly improves productivity, allowing users to continue working on the Techlog platform while sending data to the Studio platform. Studio platform version compatibility has been improved enabling Techlog 2019.1 to run on Studio 2018 systems.

In Europe and North America, Techlog 2019.1 is now available in the DELFI Knowledge E&P environment as part of the Petrotechnical Suite.

Techlog 2019.1 major developments

1- Ease of use

• Enable AWI graph and graph for Techlog Quanti module.
• Filter the upgraded project browser using a well list to support pasting copies of wells from a third-party script using commas.
• Improved project selection window functionality to allow users to search for specific projects.
• Improved polygon copy management on crosshair and gives users the ability to save polygons as custom objects.
• Dynamic header added to LogView with automatic rendering of legends and lithograph qualifications.
• Simplified graphic simplification provided.
• Improving the well properties of DLIS files by offering an option to regulate the well characteristics by operating, improving the display of information, and adding the ability to paste and merge operations while maintaining the integrity of the well properties.
• Improved search functionality for the Petrel Guru unit.

2- Stretching

Boost account performance with Python 3.6 as the default drive.
Provides dual compatibility with Techlog 2018 releases.

3- Performance

Accelerate counting time with regions using the new Python AWI engine.
Enable multi-use graph using AWI output.
Improved regions (editor, filter, and AWI inserts).
Improved Monte Carlo Calculation Time for Porous Saturation.

[Techlog Exercises] Techlog Whats New

There is no doubt that the Techlog program updates every period to reach the best uses of it, take advantage of your good investment. The data obtained in wells are complex, diversified and represent a major investment.

It is essential to take advantage of this investment, whether you are working in the first deepwater well or offering a comprehensive drilling program in the shale gas game. Using the Techlog platform, you can enter all of the hole data in one very easy-to-use analytics app. In addition to offering advanced modules to industry experts, the Techlog platform provides a solid foundation for the general user to review and analyze data. Supports complex workflows across multiple disciplines.

Take advantage of advanced technology in real time

Techlog platform dynamically includes the latest data from the well site for review and detailed analysis. Data can be streamed directly from the well site for real-time processing and immediate analysis where the well is drilled, which helps in making decisions during operations.

Class with confidence

The best-in-class science provided by Techlog platform analyzes all available hole data on its acquisition scale and allows this data to be upgraded with confidence. Physicist can use high-precision data to check the direction of fractures as well as evaluate the resistance characteristics of these fractures to understand the fluid flow in and around the wellbore. No feature-sensitive registry metrics are required to "perform" two-dimensional displays. Techlog provides new ways to visualize a formation model near a wellbore.

Detailed 3D explanations increase the value of all the complex data collected in modern wells. This single well model is used to create a versatile explanation that provides inputs to a simulation model to assess dynamic tank behavior.

Your answers - submitted

With the support of the world's largest gas and oil metric acquisition company, Techlog platform is widely used to process, interpret and prepare answer products for you. By working on the same program, these answers can be provided faster, with more contextual information, and with full transparency.

Today, the platform is more than ever coming to the platform - enabling you to do more, with greater efficiency and automation to increase the value of any measurement of oil fields.