Alsalam alaikum Deer all I am an engineer having good background in Petrophysics and reservoir studies but I have no practise on Interactive Petrophysics Software, so I will be appreciate if anyone have a learning video or any helpful mean to explain how can execute the software in the correct way to get all the benefits of logs and their interpretation, regarding the best method of uploading.
GeolOil offers the following tutorial videos. With these you will get a precise idea on how our software works. Please make sure you have a quality high speed internet connection. These videos were tested to work on Windows for Internet Explorer, FireFox and Chrome.
This video tutorial shows in detail how to build well log plots from your LAS files. You can learn how to explore your curves in a tabular view form; how to define tracks with curves, specify curves details and fill them, and define stratigraphic zones. |
This video tutorial shows how to digitize a map. With just three known reference points, either 3 wells or 3 arbitrary points, you can start to digitize contour curves, fault polygons, well coordinates, and all the geographic information contained in the image. When you are done, you export your digitized data to a plain ASCII text file that can be read by many packages. |
This video shows a 3D Corner Point Geometry Grid (CPG) built with GeolOil. Watch the shallowest layer with a huge amount of faults and folds. |
LR IP is our modular formation evaluation suite. From porosity and pore pressure to reservoir productivity, LR IP gives you an incredibly capable and customisable solution to share and interpret well logs and many other vital data types.
LR IP'sBasic bundle delivers sophisticated data management, calculation and deterministic workflow capabilities as standard. 20 further modules presented in six bundles add comprehensive optional functionality.
LR IP is compatible with Windows 7, 8 and 10.
IP Basic helps you analyse, visualise and share data to rapidly produce rigorous and reliable interpretations for a single well – or for thousands. The IP Basic bundle is far from basic, offering potent functionality as standard that competing products charge extra for.
Principle calculations like clay volume, porosity/water saturation, cut-off and summation, pulsed neutron analysis, organic shales and NMR interpretation are all part of the package. Together, they create an industry-leading deterministic petrophysical workflow built for efficiency and collaboration.
Compatible with a wide range of file formats and third-party products, IP Basic converges and standardises diverse data sources for easy presentation. It includes a comprehensive range of QC and pre-processing functions such as raw data editing, depth shifting and filtering along with powerful viewing and plotting tools. Visualise interpretations and employ interactive parameters within each zone to see instantly how input changes affect interpretation outcome.
LR IP can also easily share data with LR IC.
IP Basic's components include:
- Clay volume: calculate clay or shale volume
- Porosity and Water Saturation: robust iterative calculations minimise errors
- Cut off and summation: identify Net Reservoir and pay zones
- NMR interpretation and pulsed neutron analysis
User apps: build your own applications with our intuitive coding tools
Instantly scale LR IP's capabilities with a host of pre-integrated modules. Import, combine and derive insight from a universe of data types across all geoscience disciplines, from time-based LWD data to pressure tests and seismic.
With six bundles and 20 individual modules available, you can select exactly the right custom configuration to meet your needs. Plug each extra bundle or module into your IP Basic deployment to customise the product to your individual needs.
LR IP's tight cross-module integration helps you work in harmony, promoting collaboration across multiple disciplines. The complete answer for petrophysical interpretation, LR IP makes vital results visible and supports confident, profitable decision making.
Our IP Formation Evaluation (IPfe) bundle offers robust and sophisticated petrophysical calculations for both deterministic and probabilistic analysis.
Fill in missing data. Pinpoint mineral composition. Classify facies, then apply Monte Carlo analysis to quantify your confidence in your interpretation.
This essential bundle provides a broad and in-depth toolbox for advanced formation evaluation of conventional and unconventional reservoirs.
Modules
Mineral solver
Mineral Solver is the premier tool for non-deterministic assessment. Integrate all of your wellbore logs and core data into one solution for lithology, porosity and saturation.
- Handle carbonate wells with complex diagenetic histories, mixed-clay wells or even heavy-mineral effects in sandstones
- Understand unconventional reservoirs
- Include any mineral in your rock model to truly understand downhole lithology
Monte Carlo Analysis
Petrophysical workflows can be deeply complex, using hundreds of inputs. Variance in any one of them affects the Net-to-Gross. Our true Monte Carlo Analysis module cuts through the complexity, isolating the key curves and parameters affecting your bottom line to help you build a defensible and robust interpretation.
- Proven technique for finding the input sensitivities in any multivariate system
- Quantitatively show interpretation error to accurately inform risk assessments and best-worst cases
Curve Prediction
Applicable at any stage of a well's life, Curve Prediction enables advanced interpretations from minimal source information. Curve Prediction's leading edge statistical tools help you to generate new curves from offset wells, repair existing data or even make continuous curves from discrete data.
- Predict key reservoir properties including porosity, permeability and saturation from log curves and core data
- Infer missing data or repair incomplete well data from bad hole intervals
Rock Typing
Rapid and easy to learn, Rock Typing employs powerful algorithms to deliver repeatable and accurate facies classifications. With both Cluster and Self-Organising Map capability, you can analyse core or raw log data to cluster, zone and focus on the best approach to lithology, porosity and saturation.
- Build and apply a facies model to any number of wells
- Cross-plots and starplots graphically show how key input parameters affect facies selection
- Compare any Rock Typing models in Contingency Table, including core data and manual picks
IP Geology moves beyond petrophysics with a compelling selection of geological interpretation tools. Perform a full range of corrections on your raw image data with our state-of-the-art Image Analysis module. Create petrophysical groups and predict facies types in related wells with Rock Typing.
Working in close harmony with other LR IP modules, IP Geology brings leading edge statistical analysis, visualisation and automation to bear on your reservoir characterisation.
Modules
Image Analysis
Our Image Analysis module offers a complete workflow for rapid image log processing, correction and interpretation. With new proprietary techniques and unique, patented LR technology, it lets you take independent control of your own image data and analysis to cut costs and end reliance on service companies.
- Process and interpret any wireline or LWD image log
- Correct and enhance raw images
- Step through image analysis workflow to control interpretation
- Turn your team into image analysis experts with our specialist training
Rock Typing
Rapid and easy to learn, Rock Typing employs powerful algorithms to build repeatable and accurate facies classifications. With both Cluster and Self-Organising Map tools, you can analyse core or raw log data to cluster, zone and focus on the best approach to lithology, porosity and saturation.
- Build and apply a facies model to any number of wells
- Cross-plots and starplots graphically show how key input parameters affect facies selection
- Compare any Rock Typing models in Contingency Table, including core data and manual picks
ssure your well's stability and maximise production lifetime with IP Geomechanics. Calculate reservoir rock strengths and wellbore stresses from proven models. Save your well from rock-face failures and analyse for potential sand production. Predict pore pressure and mud weight to optimise drilling speed.
IP Geomechanics arms you with the best possible interpretation and knowledge. That allows you to make confident, informed drilling and production decisions – and realise your well's full potential safely.
Modules
SandPIT 3D
Minimise the risk of costly formation failure and sand production with SandPIT 3D. By calculating stress on the walls of a perforation tunnel or wellbore and comparing it to rock strength, you can forecast well conditions likely to cause sand failure. Forewarned, you can maximise productivity with safe drawdown pressures and optimum perforation patterns.
Pore Pressure Prediction
Calculate the subsurface pressures your drilling programme will experience to avoid abrupt changes and ensure wellbore stability. Pore Pressure Prediction models overburden, pore and fracture pressures based on conventional log curves, drilling information and seismic data.
Develop fluid migration models. Rank prospects. Study seal effectiveness and shape casing programmes. Put Pore Pressure Prediction to work as a pre-spud predictive tool or in real time while drilling. Post-project, you can update and refine pressure models to inform future activity.
Wellbore Stability
Create a geomechanical model within Wellbore Stability and save your well from rock-face failures. Take the guesswork out of mud weight prediction for stable, safe drilling. Define the shear failure gradient using Mohr Coulomb, Modified Lade and Hoek-Brown.
Covering one well or an entire field, Wellbore Stability makes it swift and easy to calibrate against offset wells and apply your model to any new project.
Our IP Geophysics bundle brings your petrophysics and geophysics teams together, helping them apply their knowledge across seismic and well log data to build the fullest possible interpretation.
Perform sophisticated fluid substitution modelling. Predict key reservoir properties from minimal source data. Create Synthetic Seismograms to compare bed boundary depths with seismic data or reprocess and interpret vital acoustic logs.
Tightly integrated with the rest of the LR IP suite, IP Geophysics gives you the power to link your data – and your understanding.
Modules
Rock Physics
Rock Physics offers an innovative way to depth-match bed boundaries and other markers from log traces to real seismic data. By calculating acoustic impedance from density and sonic logs, then combining it with check-shot (VSP) data, Rock Physics creates a Synthetic Seismogram. Using different input data and filters, you can recompute the synthetic trace to optimise the match with seismic.
Curve Prediction
Applicable at any stage of a well's life, Curve Prediction enables advanced interpretations from minimal source information. Employing several statistical methods, Curve Prediction's tools help you to generate new curves from offset wells, repair existing data, or even make continuous curves from discrete data.
- Predict key reservoir properties including porosity, permeability and saturation from log curves and core data
- Infer missing data or repair incomplete well data from bad hole intervals
Acoustic Waveforms
Due to tool limitations and difficult acoustic environments, sonic logs can be challenging to interpret. Yet acoustic data is fundamental to reservoir characterisation. Acoustic Waveforms helps you assess input raw data quality and adjust re-processing parameters to optimise output quality – without long-winded workflows.
- A complete sonic log processing module designed by experienced industry specialists
- Rapidly re-process raw waveforms with your own filters and semblance parameters to derive slowness curves
- QC input data and build confidence in your analysis
- View each tool mode in detail to differentiate genuine and spurious arrivals
Our IP Reservoir bundle offers every imaginable feature for pin-sharp reservoir understanding, potential quantification and production optimisation. Create saturation height models from core and logs and predict facies. Qualify porosity and permeability with Hydraulic Flow Units. Organise and analyse all your Formation Testing data.
With the Production Logging suite, you only need one module to organise, edit and analyse all your PL data. Take advantage of LR IP's end-to-end integration to combine PL and wireline data to refine both open and cased hole interpretations.
Modules
Saturation Height
Analyse, quality control and correct capillary pressure data the easy way with Saturation Height. Apply industry-standard or your own custom fitting functions to quickly build a robust water saturation model from SCAL Pc data. Integrated workflow with other LR IP modules saves significant further effort.
- Reduce uncertainty in your petrophysical model
- Integrate multiple saturation height functions with our Function Mixing tool
- Apply functions to offset wells where no core Pc data is available
- Fit and apply functions per facies or per flow unit
- Link Free Water Level across multiple wells
Formation Testing
Organise, display, analyse and interpret your pressure test data – all in a single module. Formation Testing works with all pressure test types made with different suppliers’ downhole tools to produce a comprehensive formation test report.
Generate and visualise graphical drawdown and build-up analyses. Estimate mobility and permeability. With Formation Testing's automated tools, you can process multiple pressure tests and summarise an entire well's results in minutes.
- QC pressure tests run by service companies
- Produce full-blown objective analysis and robust, easily-digested reports
- Build greater knowledge of your reservoir’s zones of interest
Production Logging
Production Logging (PL) campaigns generate vast amounts of data. Our Production Logging module gives you one place and one extensive set of tools to organise, edit and analyse it. Trust Production Logging to help you spot exactly where production problems lie, so you can target actions to improve productivity and revenue.
Identify downhole producing zones. Quantify their contribution to overall flow. Calculate gas, water and oil volumes at each reservoir depth. Access a completely new workflow dedicated to PL interpretation in deviated or horizontal wells.
- Specialist tools to import, calibrate and edit PL data
- Calculate multi-phase flow
- Integrate PL with open hole data within LR IP to enhance understanding
- Cut outsourcing costs by taking control of your own PL interpretation
Hydraulic Flow Units
Classify reservoir rock into hydraulic flow grades with Hydraulic Flow Units (HFU). HFU bases its flow models on log and core data from single or multiple wells, relating permeability and porosity to production flow potential.
You can apply the HFU model as an input to LR IP’s statistical modules for nearby wells and define a continuous flow unit curve across the full data interval of the target well. Taking advantage of popular industry standards, HFU unlocks a powerful application for all core data across any field.
- Predict potential production value prior to well completion
- Identify zones with similar flow potential across multiple wells
- Refine static reservoir models and enhance saturation height calculation, helping better estimate hydrocarbon saturation
Switch on our IP Wells bundle as soon as the rig is on site, then start work there – or at the office. XStream Connect delivers live information from any location while Chrono Log let you view time-based LWD data alongside depth data.
IP Wells brings the integrated analysis power of LR IP to your campaign – in real time. Our new Geosteering solution gives you detailed formation intelligence while drilling, supporting vital decisions on well trajectory. With Cement Evaluation, you can plan perforation and production while assuring the highest standards of well integrity and safety.
Modules
Chrono Log
Chrono Log imports, reviews and analyses time-indexed LWD data. Run in combination with XStream Connect, you can process data in real time to diagnose drilling problems or refine drilling parameters. Chrono Log can also convert time-indexed to depth-indexed data for comparison with conventional logs.
XStream Connect
Developed by DK Energy, XStream Connect transmits live log data from a remote location directly into your LR IP database. It can download data into one or more LR IP wells from multiple WITSML servers simultaneously.
Multiple modules within LR IP can then analyse the new data to produce operationally vital calculation results and interpretations – automatically and unattended. Simply inspect the workflow output to see periodically updated analyses of your latest drilling operations.
Pore Pressure Prediction
Calculate the subsurface pressures your drilling programme will experience to avoid abrupt changes and ensure wellbore stability. Pore Pressure Prediction models overburden, pore and fracture pressures and distribution based on conventional log curves, drilling information and seismic data input.
Develop fluid migration models. Rank prospects. Study seal effectiveness and shape casing programmes. Put Pore Pressure Prediction to work as a pre-spud predictive tool or in real time while drilling. Post-project, you can update and refine pressure models to inform future activity.
Cement Evaluation
Make fast, well-informed decisions on cement bond quality for safe and efficient drilling, production and abandonment. Cement Evaluation independently assesses data from all major tool types, from traditional Cement Bond Log equipment to advanced ultrasonic devices.
Cement Evaluation takes the user through a swift, intuitive workflow to quality check and analyse relevant log data one step at a time. Its detailed, user-friendly isolation report makes it clear which zones are most likely to provide annular hydraulic isolation.
- Enhance wellsite safety with optimal decision making
- Save hours over manual methods
- Combine and compare bond results with open hole data
Geosteering
Bring LR IP's combined insight to your geosteering. By fusing deep geological knowledge with real-time LWD measurements, our Geosteering module helps you drill any type of well accurately and confidently.
Place your wells effectively, increasing exposure to the reservoir. Avoid geohazards to minimise rig downtime. Predict upcoming formations, decide on borehole placement and constantly update well trajectory – while maximising drilling accuracy.
- Correlate with offset and current well formation data as you drill ahead
- Incorporate geomechanical and offset production data
- Integrate intelligence from LR IP’s interpretations suite to inform your geosteering
Domain Transfer Analysis (DTA) is our premier solution for porosity, permeability and saturation prediction. Create multivariate and non-linear predictions based on real data from the current well, nearby wells or their sidetracks – you can even include previously unused information from normal deterministic analyses.
DTA's key advantage is mathematical. It employs n-dimensional Partial Differential Equations to reveal non-linear relationships that other tools miss – giving its results that vital extra edge of accuracy.
Ip Petrophysical Software
Standalone module: Eastern European Resistivity Corrections (EERC)
Our EERC module updates Eastern European resistivity log results to give Rt, Ri, Rxo and depth of investigation – swiftly, reliably and automatically. Developed in partnership with Krakow's AGH University of Science and Technology, EERC corrects lateral and normal resistivity tool data for borehole and environmental effects – then produces sensitivity values from the flushed zone right through to the true formation resistivity.
Ip Petrophysical Software Tutorials Free
- Minimises the number of input curves required
- Easy definition of environmental parameters
- Automatically creates resistivity crossplots
LR IP connects directly to LR IC for easy file transfer and data sharing. LR IP can link to common industry applications like to OpenSpirit, Petrel and OpenWorks. It can transfer data to and from any WITSML-compliant application.
The real-time data link module XStream ConnectTM is built and marketed by Capital DK (www.capitaldk.com).