Techlog production

Description

This course starts by teaching the fundamentals of acoustic waveform propagation in a borehole and how the waveforms recorded by an array sonic tool can be processed and interpreted to obtain valuable quantitative information about the petrophysical and mechanical properties of the rocks. It contains an overview of sonic acquisition technologies (both Wireline and LWD) and explains the different constraints and limitations of each measurements (monopole, dipole, quadrupole). The course contains several practical exercises using Techlog in which the participants will be able to load real sonic data from Wireline and LWD sonic tools and QC the quality of the raw waveforms, as well as the maint products such as slowness projections and slownesses. Then, the user will be able to compute compressional, shear, and Stoneley slownesses from these waveforms using non-dispersive and dispersive slowness time coherence (STC) processing and dispersion analysis tools. Further, cross-dipole data will be used to conduct anisotropy analysis and derive standard answer products such as anisotropic parameters, fast shear azimuth. Finally, an overview of the different applications of sonic data for geomechanical applications, petrophysics, and geophysics is provided.

Who Should Attend

Basic understanding of geoscience and petroelum engineering

Description

The Studio for Techlog Users course is designed for users who are familiar with Techlog and who need to learn about Studio. Studio answers three major productivity challenges: data discovery, user collaboration and data management. The purpose of this course is to explain the fundamental concepts of Studio and describe the Studio environment and methodology. Aimed at users of Techlog, the course will cover how Techlog users can discover and retrieve data from Studio in the context of their project, share interpretation with their peers and collaborate together. The course covers topics such as connecting to Studio, sending and retrieving data, receiving automatic notifications of updates, locking and unlocking data as well as more advanced workflows such as resolving data matches or conflicts.

Who Should Attend

Techlog Fundamentals

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 4 days with a delivery of 4hrs per day. The Studio for Techlog Users course is designed for users who are familiar with Techlog and who need to learn about Studio. Studio answers three major productivity challenges: data discovery, user collaboration and data management. The purpose of this course is to explain the fundamental concepts of Studio and describe the Studio environment and methodology. Aimed at users of Techlog, the course will cover how Techlog users can discover and retrieve data from Studio in the context of their project, share interpretation with their peers and collaborate together. The course covers topics such as connecting to Studio, sending and retrieving data, receiving automatic notifications of updates, locking and unlocking data as well as more advanced workflows such as resolving data matches or conflicts.To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Licenses

Who Should Attend

Techlog Fundamentals

Description

Studio Manager comprises a suite of tools for effectively managing the Studio environment. It consolidates administrative and core data management workflows supporting Techlog. Using Studio Manager, data managers quickly understand the state of their Studio environment by using cutting-edge applications (apps) to ascertain the status of repositories, review recent user activity, identify tasks that need to be performed, and perform the workflows surrounding those tasks.  In this course you learn to use Studio Manager as the single application to: Manage data for Techlog users Apply data management common practices

Who Should Attend

Techlog Fundamentals course, or be familiar with Techlog  Basic proficiency in a Windows operating system, understanding user accounts and working in a domain, and creating, organizing and sharing folders.

Description

This course introduces the log interpreters to the high angle and horizontal well formation evaluation methodology and workflows deployed in 3D Petrophysics module of Techlog. The workflows allow correcting the logs for geometry effects observed in these well profiles; hence, enabling more accurate formation evaluation. There are demos and practical sessions designed along with the technical and domain presentations.

Who Should Attend

Techlog Fundamentals or experience using Techlog Basic Petrophysics  

Description

This course teaches the theory, processing and interpretation of sonic waveforms using Techlog platform. Participants will learn how to QC raw data such as waveforms, and slowness projections. Participant will also learn how to perform field data slownesses relabeling and process acoustic data for formation slownesses and anisotropy. Also, dispersion analysis tools will be explained in detail to allow users to define the most appropriate parameters for their processing. Furthermore, Slowness processing based on Slowness Time Coherence (STC) technique is covered in detail. Acoustic anisotropy using cross-dipole data is covered from the theory, acquisition, to the final processing of acoustic anisotropy results. This course includes practical exercises to enhance the learnig experience. 

Who Should Attend

Techlog Fundamentals

Description

This course introduces experienced log interpreters to building log interpretation models and generating solutions with the Quanti.Elan solver of Techlog. You will learn how to use the combiner to build a final model from several models and how to compute petrophysical results from the final model using the postprocessing method. This course also teaches you how to build one model per zone with Quanti.Elan solver of Techlog.

Who Should Attend

Techlog Fundamentals and Techlog Formation Evaluation 

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 5 days with a delivery of 4hrs per day. This course introduces experienced log interpreters to building log interpretation models and generating solutions with the Quanti.Elan solver of Techlog.You will learn how to use the combiner to build a final model from several models and how to compute petrophysical results from the final model using the postprocessing method.This course also teaches you how to build one model per zone with Quanti.Elan solver of Techlog.To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Techlog Geomechanics and Techlog base Licenses

Who Should Attend

Techlog FundamentalsTechlog Formation EvaluationPetrophysics Domain Knowledge

Description

In this course, you discover advanced processing and interpretation capabilities for all kind of wellbore images logs and the use of various interpretation workflows for analysis and utilization of these data using Wellbore Imaging, WBI Modules of Techlog Platform. You gain a full range of skills necessary to process, interpret and use borehole image data for structrual, sedimentary and specific petrophyscal analysis towards integrated reservoir.

Who Should Attend

Techlog Fundamentals

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 5 days with a delivery of 4hrs per day. In this course, you discover advanced processing and interpretation capabilities for all kind of wellbore images logs and the use of various interpretation workflows for analysis and utilization of these data using Wellbore Imaging, WBI Modules of Techlog Platform. You gain a full range of skills necessary to process, interpret and use borehole image data for structrual, sedimentary and specific petrophyscal analysis towards integrated reservoir.To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Techlog Geomechanics and Techlog base Licenses

Who Should Attend

Techlog Fundamentals

Description

The purpose of this course is to introduce you to the fundamentals of cased hole formation evaluation. The course is focused on the Pulse Neutron tool theory and the interpretation of Sigma and Carbon Oxygen Ratio measurements. You will become familiar with the available methods to build a comprehensive workflow.

Who Should Attend

Techlog working knowledge

Description

In this course, you go through the complete petrophysical evaluation of a shale oil and a shale gas reservoir. The course covers the calculation of the organic matter content in the reservoir, the reservoir quantitative evaluation, and the computation of hydrocarbon volumes in place. The specificities of the shale reservoir will be discussed (petrophysical properties, fluids behavior), and you will use some advanced measurements such as spectroscopy and NMR, and learn how to integrate these into your workflow.

Who Should Attend

Techlog Fundamentals Techlog Quanti.Elan

Description

This course teaches participants how to do basic formation evaluation using Quanti module of Techlog.During the course participant will learn how to use LogView, Crossplots, Histogram and other plots to visualize log data, analyze and interpret log data.In the first day of the course participants will learn how to build a Quick Look interpretation workflow. This will be followed by building a detail step by step logs interpretation workflow starting from Precomputation and Fluid properties computation to Volume of Shale, Vshale computations through Porosity computations to Water Saturation, Sw computations. Participants will learn how to use Techlog to perform: a. Vshale computations from different measurements using different Vshale equations,b. Total Porosity computations from different measurements using different Total Porosity equationsc. Effective Porosity computations from different measurements using different Effective Porosity equationsd. Total Saturation computations from different measurements using different Total Porosity equationse. Effective Saturation computations from different measurements using different Effective Porosity equationsf. Permeability computation from Wyllie-Rose and Coates equations.g. Summations computations and reportsh. Monte Carlo AnalysisThe course will teach how to use picket plot, other statistical tools and several Techlog powerful features to aid and simplify interpretations. Participant will learn how to use Zonation for interpretations by zone.In the final day of this course which covers both domain and give a refresher on Acquisition Tools physics and logging procedures, participants will learn how to use the Sand-Silt-Clay Workflow method to interpret silty sand and/or clayey sand reservoirs. Finally, the course will end by introducing participants to the world of multi-well and multi-zone interpretations.

Who Should Attend

Techlog Fundamentals

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 5 days with a delivery of 4hrs per day.  In this course, you explore the use of base modules Techplot and Techdata, and Quanti. You achieve a good grounding in the data model within the Techlog application. You explore deterministic calculations and the principles behind the powerful Application Workflow Interface for single and multiwell use. You study the integration of different data to enhance the interpretation processes. You review how to perform day-to-day tasks within the Techlog Suite and learn advanced techniques for improving the analysis results.  To effectively participate in the training, each learner will need to have the following: A laptop or desktop computer connected to the internet Two monitors or one monitor and a tablet. A headset or speakerphone A webcam (optional but preferred) Techlog Software installed and Active Techlog Geomechanics and Techlog base Licenses

Who Should Attend

Techlog Fundamentals Basic Petrophysics Domain

Description

In this course, you will learn how to handle, prepare and interpret pressure vs. time and pressure vs. depth data from a wellbore centric perspective. You will learn how to build integrated interpretation workflows to find gradients and free fluid levels to be used as input into Saturation Height Modelling. You will import pressure data, quality check the pressure data and perform advanced processing on pressure vs. time (Flow Regime Identification) and on pressure vs. depth (Gradient Analysis and Excess Pressure). You will work on an integrated single well workflow from pressure vs. time to pressure vs. depth. Then on a multiple wells workflow on pressure vs. depth to do pressure calibration and free level determination.

Who Should Attend

Techlog Fundamentals Basic Petrophysics

Description

In this course, you discover the TechlogTM Interactive Suite, which brings all of your wellbore data together in a collaborative Wellbore Platform environment. You learn about the data model within the Techlog platform and the foundation utilities for importing, exporting, manipulating, and displaying data in the system, including core and images. You explore the principles behind the powerful Application Workflow Interface by creating workflows for single and multiwell use.

Who Should Attend

Anyone with an interest in using Techlog software to perform high level analyses of core, log, image and related data types together in one program.

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 10 days with a delivery of 4hrs per day but can be delivered over a given number of days in a 3hrs per day or 5hrs per day sessions. In this course, you discover the TechlogTM Interactive Suite, which brings all of your wellbore data together in a collaborative Wellbore Platform environment. You learn about the data model within the Techlog platform and the foundation utilities for importing, exporting, manipulating, and displaying data in the system, including core and images. You explore the principles behind the powerful Application Workflow Interface by creating workflows for single and multiwell use.To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Techlog base License

Who Should Attend

Anyone with an interest in using Techlog software to perform high level analyses of core, log, image and related data types together in one program.

Description

The Techlog Geomechanics course covers the fundamental theory of geomechanics for pore pressure, 1D mechanical earth model (MEM) construction, wellbore stability & completion geomechanics applications using Techlog* wellbore software platform on real examples. The course presents pore pressure prediction concepts using the effective stress method (Eaton, Bowers, Traugott). The steps to build a MEM, which is comprised of computing dynamic & static elastic properties, rock strength properties and the orientation & magnitudes of the horizontal stresses, are introduced.  The theory of wellbore stability theory is discussed in detail which covers the concepts of rock failure, thermal stresses, depth of damage and failure image prediction. Using multiple exercise, participants build a calibrated mechanical earth model with Techlog, construct a mud weight window, and identify drilling hazards.  Completion Geomechanics introduces a workflow which provides input for sand management decisions (optimized drawdown pressure, perforation orientation & size etc). The fracture stability module provides a workflow which allows critical stress analysis of fractures and faults considering the effect of depletion & injection.

Who Should Attend

Basic Techlog knowledge Some Basic Geomechanics domain knowledge 

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 5 days with a delivery of 4hrs per day.  The Techlog Geomechanics course covers the fundamental theory of geomechanics for pore pressure, 1D mechanical earth model (MEM) construction, wellbore stability & completion geomechanics applications using Techlog* wellbore software platform on real examples. The course presents pore pressure prediction concepts using the effective stress method (Eaton, Bowers, Traugott). The steps to build a MEM, which is comprised of computing dynamic & static elastic properties, rock strength properties and the orientation & magnitudes of the horizontal stresses, are introduced.  The theory of wellbore stability theory is discussed in detail which covers the concepts of rock failure, thermal stresses, depth of damage and failure image prediction. Using multiple exercise, participants build a calibrated mechanical earth model with Techlog, construct a mud weight window, and identify drilling hazards.  Completion Geomechanics introduces a workflow which provides input for sand management decisions (optimized drawdown pressure, perforation orientation & size etc). The fracture stability module provides a workflow which allows critical stress analysis of fractures and faults considering the effect of depletion & injection.  To effectively participate in the training, each learner will need to have the following: A laptop or desktop computer connected to the internet Two monitors or one monitor and a tablet. A headset or speakerphone A webcam (optional but prefered) Techlog Software installed and Active Techlog Geomechanics and Techlog base Licenses

Who Should Attend

Basic Techlog knowledge Some Basic Geomechanics domain knowledge 

Description

This course teaches participants the tools and workflows in Techlog for processing and interpreting Nuclear Magnetic Resonance data from CMR Plus tool. In this course you will learn how to compute and interpret porosity, bound fluid, free fluid, bin porosity and permeability. Participant will also be introduced to density magnetic resonance porosity computation, integrated permeability and capillary pressure answers. 

Who Should Attend

Techlog Fundamentals Techlog Formation Evaluation NMR Domain 

Description

Participants are trained to use the Techlog wellbore software platform to perform processing and interpretation of photorealistic Quanta Geo formation images.  A simplified physics lecture gives students a foundation of understanding the Quanta Geo physics of measurement.  Starting from raw Quanta Geo data, students are taught to apply tool-specific signal processing methods in Techlog to remove borehole and mud effects and produce images that are most representative of the formation. Students then learn to use and optimize standard Techlog Wellbore Imaging (Wbi) methods to optimally process and visualize Quanta Geo images for interpretation. Emphasis is placed on the recognition of artifacts, and the corrective actions to take to eliminate them.  Optimum adaptation of common Techlog Wbi interpretation workflows is then covered, considering eventual processing artifacts and considering the nature of Quanta Geo images being acquired in resistive oil-base mud.

Who Should Attend

Students should have at least basic familiarity with the Techlog user interface, data structure, workflow manager, and plots.  Experience using the Techlog Wellbore Imaging (Wbi) module is also a plus.

Description

Participants are trained to use the Techlog wellbore software platform to perform processing and interpretation of photorealistic Quanta Geo formation images. A simplified physics lecture gives students a foundation of understanding the Quanta Geo physics of measurement. Starting from raw Quanta Geo data, students are taught to apply tool-specific signal processing methods in Techlog to remove borehole and mud effects and produce images that are most representative of the formation. Students then learn to use and optimize standard Techlog Wellbore Imaging (Wbi) methods to optimally process and visualize Quanta Geo images for interpretation. Emphasis is placed on the recognition of artifacts, and the corrective actions to take to eliminate them. Optimum adaptation of common Techlog Wbi interpretation workflows is then covered, considering eventual processing artifacts and considering the nature of Quanta Geo images being acquired in resistive oil-base mud.

Who Should Attend

This 5 days version of the course includes a 1 day primer on Techlog that will be sufficient to follow the exercises on days 2 to 5.

Description

This course teaches participants the tools and workflows in Techlog for Production Logs interpretation. Techlog Production Logging workflow starts from raw data preparation, visualization and QC, through processing to Rate Calculation and interpretations. The output from Rate Calculation are used for calibration of reservoir models. The workflow ends with Well Performance Advisor method to help decide workover intervention. A final customizable report is generated at the end of the workflow. This course covers the processing and interpretation of raw data from different types of Production Logging tools. You will learn the tools and techniques to understand the types and movement of fluids in and near the wellbore and the flow rate contribution from different zones.

Who Should Attend

Techlog Fundamentals Basic Production Logging domain

Description

The Techlog Python class is designed to introduce users to programming basic and advance scripts in Techlog. Participants will learn: How to create, edit, open and run scripts in Techlog How to use the Application Workflow Interface for Python and use python in a workflow. How to use basic python syntax and develop their programming skills. Participants will be introduce to Python and Techlog modules (libraries). Advance scripting including reading/writing and creating Techlog modules.

Who Should Attend

Techlog fundamentals

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 4 days with a delivery of 4hrs per day. The Techlog Python class is designed to introduce users to programming basic and advance scripts in Techlog.Students will learn:How to create, edit, open and run scripts in Techlog How to use the Application Workflow Interface for Python and use python in a workflow.How to use basic python syntax and develop their programming skills. Participants will be introduce to Python and Techlog modules (libraries).Advance scripting including reading/writing and creating Techlog modules.To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Techlog base License

Who Should Attend

Techlog Fundamentals

Description

This 3 hour eLearning course introduces the basics of using Python in Techlog. Each video tutorial will guide you through a particular workflow which you can follow along in your own Techlog project. This course is suitable for beginners with little or no prior experience with using Python in Techlog. Note that the video tutorials show workflows being carried out in Techlog 2016 and using Python version 2.7, however the workflows can also be completed using later releases of both Techlog and Python.

Who Should Attend

Techlog fundamentals

Description

In this course, you will learn how to handle, prepare and interpret core, pressure and petrophysical data from a wellbore centric perspective. You will build integrated interpretation workflows to provide input to your static reservoir model.   You will import, quality check and interpret pressure versus time data obtained by Wireline or LWD technology for proper gradient and free fluid levels analysis. Subsequently, the results of this interpretation will be used as an input for saturation height modeling. You will learn to manage contacts within complex compartmentalized reservoirs in a single well and multi-well context.

Who Should Attend

Techlog software knowledge Some Reservoir Engineering Domain knowledge Some Basic Petrophysics knowledge

Description

In this course, you will learn how to handle, prepare and interpret core and petrophysical data from a wellbore centric perspective. You will learn how to build integrated interpretation workflows to provide input to your static reservoir model. You will import capillary pressure data from core, quality check the core data and perform core data processing. You will then create saturation models using petrophysical properties and refine the saturation model parameters by comparing it to log saturation. The workflow is completed by exporting the refined model for static reservoir modelling.

Who Should Attend

Basic Petrophysics Techlog Fundamentals

Description

In this course, participants will learn how to build a static model and generate the final output as a table that can be used by a simulator or in Petrel Reservoir Engineering to initialize a dynamic model.Participants will learn how to use two guided workflows, the rock type to table generation workflow and the End points to table generation workflow. You will be thought how to use the rock type to table guided workflow to prepare data for the simulation of an Oil-Water system using end point scaling approach. You will also be thought how to use the end points to table guided workflow to prepare data for simulation of Oil-Water, Gas-Water, or Gas-Oil-Water systems in a parameterized approach.Participants will learn to use the import from Excel option to import data, generate deterministic rock Typing group, generate relative permeability and capillary pressure from end points, and generate an output table for the simulator.The class will take participants through several methods of correcting capillary pressure data and modify relative permeability data. You will learn about the capillary pressure methods of closure correction,  clay-bound water correction, pressure conversion and average capillary pressure curves by groups.

Who Should Attend

Basic Petrophysics Core analysis knowledgeTechlog Fundamentals

Description

This course is design to teach participants how to use the different statistical tools in Techlog to analyze data to find similarities between wells, and to group wells. Participants will learn about statistical techniques to create classification models and curve reconstruction models that can be calibrated against geological data and applied over multiple wells in the field. Participants will learn how to use these tools in rock typing and petrophysical evaluations.  In this course participants will learn how to use the following statistical tools, IPSOM, Kmod, MLP classification, HRA, ANCOR, Factor Analysis, Multilinear regressions etc The course will cover the following: Data Visualization Factor Analysis: Principal Component Analysis Neural Networks: Unsupervised Learning and Indexation using IPSOM Factor Analysis: Linear Discrimination Analysis Supervised Indexation using IPSOMFactor Analysis: Multiple Correspondence AnalysisNeural Networks: Supervised Learning using Multi-Layer PerceptronNeural Networks: Curve Reconstruction using K.Mod  

Who Should Attend

Techlog Fundamentals

Description

In this course, you will review thin bed reservoir, perform an analysis, interpret the results and compute petrophysical summary. Thin bed reservoirs are also referred to as sands with low resistivity pay or LRLC (low resistivity, low contrast).

Who Should Attend

Techlog Fundamentals Basic Petrophysics knowledge

Description

This course is a Remote Instructor Led Series, RILS training that is delivered online with no face-to-face classroom attendance. The course is design for 5 days with a delivery of 4hrs per day.In this course, you will review thin bed reservoir, perform an analysis, interpret the results and compute petrophysical summary. Thin bed reservoirs are also referred to as sands with low resistivity pay or LRLC (low resistivity, low contrast).To effectively participate in the training, each learner will need to have the following:A laptop or desktop computer connected to the internetTwo monitors or one monitor and a tablet.A headset or speakerphoneA webcam (optional but preferred)Techlog Software installed andActive Techlog Geomechanics and Techlog base Licenses

Who Should Attend

Techlog FundamentalsBasic Petrophysics knowledge

Description

This course teaches participants how to load, review and process time-lapsed LWD data both time and depth indexed.Formation properties may change as a result of time-related process, such as invasion or borehole degradation. Changes in the measured log response between two or more passes can provide wealth of untapped information about the dynamic processes that occor in the well and the formation.In this course participant will learn how to use Techlog Time-Lapse Analysis, TLA module to process and anlyse the depth time-lapse pasess and time-indexed data to extract the wealth of information available. In addition to a traditional static petrophysical snapshot of a formation, this course will provide participant with an enhanced understanding of the dynamic behavior of the rock and fluids using time-lapse data analysis.

Who Should Attend

Techlog FundamentalsBasics of Log analysis 

Description

This course teaches you how to use Techlog* wellbore software platform to evaluate Pipe integrity and Cement hydraulic isolation with wireline logging measurements. The course takes you through the steps of data preparation and pre-processing, data visualization and QC, and interpretation of the log data to assess the condition of the wellbore. The Techlog built-in workflows allow you to evaluate the integrity of the down-hole tubulars and the condition of the annular space to enable informed decision making. You also will become familiar with the principles of operation of the logging tools and the methods available in Techlog to create an interpretation report.

Who Should Attend

Techlog knowledge