ip4_3overview
TRANSCRIPT
Software
IP™
www.lr-senergy.com
New Modules in IP™
Geomechanics and Wellbore Stability
The new Geomechanics suite in IP provides an
integrated geomechanics workflow Including
Rock Strength, Rock Stresses, Pore Pressure and
SandPIT 3D. Rock Strength, Rock Stresses and
Pore Pressure all feed into both Wellbore Stability
and SandPIT 3D.
• Rock Strength module provides over 20 UCS & TWC models
• Rock Stress module provides industry standard methods for determining stress components (Eaton, Matthews & Kelly, Breckels & Van Eekelen)
• Pore Pressure module supports Eaton models and normal compaction trend lines
• Wellbore Stability calculates the shear failure conditions at the bore hole boundary in order to predict a mud weight to use for stable drilling. It is used pre-drilling to validate the drilling mud weight plan, and can be used during drilling to update the mud weight prediction based on real-time logging
• Sand Failure calculations predict conditions for onset of sand failure
• Calibration is straight forward at each step of the workflow.
An extensive range of log plots with integrated single depth sensitivity analysis plots is included.
An extensive range of log plots with integrated single depth sensitivity analysis plots is included.
Supporting both single and multi-well analysis, it provides a Field wide view of results and calibration points.
Hydraulic Flow Units
The new Hydraulic Flow Units module provides
Reservoir Rock Typing using Flow Units. The Flow
Units are determined from Porosity/Permeability
relationships. It can be used with both Core
& Log Data. Three Approaches are available:
RQI – FZI, Winland R35 and Pittman (Multiple
Dominant Pore Throat Radius). The Flow Units are
automatically solved. Interactive adjustment can
be performed using Histograms and Lorenz Plots.
The module is Multi-well/Multi-zone.
Sand/Silt Malay Module
The Sand/Silt Malay module is designed for Silty
Reservoirs with very fine grained sediments with
fresh to brackish formation water as found in
Malaysian Basin. It is a fully Interactive module,
which calculates Porosity, Sw, Vshale and Vsilt.
Vshale is calculated from from GR & Neutron/
Density, Vsilt from Neutron/Density crossplot.
The Neuron and Density data is hydrocarbon
corrected. Total Porosity is calculated from the
Density, and Total Sw from one of Waxman Smits,
Juhasz and or Dual Water equations.
Geosteering
The Geosteering module allows the correlation
between an offset well and a new well while it is
being drilled. It uses conventional log curves: GR,
Density, Sonic, SP, etc to produces a curtain plot
along the well path of the new well.
Acoustic Waveform Processing
This module is designed to enable the user to
re-process sonic waveform data to determine
compressional, shear, Stoneley, flexural and
quadrupole wave slownesses as well as compute
classic crossed-dipole anisotropy. The module
uses semblance or Nth Root processing to
generate correlograms which can then be
displayed as VDLs and interactively picked
to identify the various components of the
waveform. The workflow is intended to be user-
friendly and largely intuitive.
New functionality and enhancements in IP 4.3
• Multi-User Access
• 3D Self Organising Maps
• Mineral Solver 3D Petrophysics
• Cement Evaluation Enhancements
• Production Logging Enhancements
• Saturation Height Enhancements
• Image Analysis Enhancements
• Pore Pressure Enhancements
• User Apps Enhancements
• Touch Screen Enabled
• Parallel Processing - Multi-Core Engine
IP™ enables you to maximize the value of your
wellbore data with quick and confident analysis,
whether you’re a casual user or a seasoned
expert. It enhances efficiency, productivity and
with a well thought out graphical interface, IP
helps minimizes user errors, as well as offering
a unique and advanced interpretation program
designed and developed by industry experts.
IP’s graphical interface, speed and interactivity
means that data can be zoned, and applied
using different methodologies - using only
the mouse, you can pick parameters from
cross plots, histograms and log plots, while IP
instantaneously recomputes and displays the
results when parameters are changed.
The software is also used by universities and is
an excellent tool for training geoscientists and
engineers.
The user clicks on a parameter line and drags it to the new position. IP instantly recalculates the results and updates the graphics.
Plot shows final combined model with reconstructed curves to the right and interactive lines in the left tracks.
Picks can be used in ALL Zoned Interpretation modules e.g. 3D Petrophysics Multiwell Workflow, User Programs and Mineral Solver etc.
Plot shows final combined model with reconstructed curves to the right and interactive lines in the left tracks.
Interactive lines allow adjustment of most parameters including, Rw, Rmf, clay parameters, hydrocarbon density. Pickett plots can be used to set ‘Rw’ and ‘m’.
Mineral Solver
The Mineral Solver module allows the user to
analyse the simplest to the most complicated
formation using probabilistic analysis techniques.
IP Mineral Solver provides a more straightforward
approach and provides users with easier access
to an optimized workflow and produces more
consistent results by removing the difficult
problem of modelling conductivity.
Pore Pressure Prediction
The Pore Pressure Prediction module reduces
drilling risk by identifying over pressured zones
which may cause operational and safety issues.
Pore pressure is predicted from log data and
other geomechanical data.
Curve Prediction
The Curve Prediction module adds value to
limited datasets by predicting missing data
using techniques such as Principal Component
Analysis, Fuzzy Logic, Multiple Linear Regression
and Neural Networks.
Monte Carlo analysis
The Monte Carlo module provides a method
of calculating the impact that uncertainties in
values will have on a petrophysical interpretation
- the module uses a Monte Carlo simulation to
estimate errors.
What is IP™
Cement Evaluation
This module allows users to make fast, well
informed decisions on the condition of the
down-hole cement behind casing. The module
can import data from all the major cement
evaluation tool types from basic Cement Bond
Log tools to advanced Ultrasonic tools.
Includes...• Mineral Solver
• Monte Carlo Analysis
• Curve Prediction
• Rock Typing
Includes...• Rock Physics
• Curve Prediction
• Acoustic Waveform
Includes…• SandPIT 3D Multi-depth
• Pore Pressure Prediction
• Well Bore Stability
Includes...• Chrono Log
• Real Time Data
• Pore Pressure Prediction
• Cement Evaluation
• Geosteering
Includes...• Saturation Height
• Formation Testing
• Production Logging
Includes...• Image Analysis
• Rock Typing
Production Log Analysis
The Production Log Analysis module
enables users to monitor well production
performance and identify key areas where
production problems exist to help them make
appropriate operational decisions and improve
productivity. The module calculates the
IP Technical Bundles
Self-Organising Maps (included with Rock Typing)
As part of the Rock Typing module, Self-
Organising Maps (SOM) is a powerful tool for
facies analysis and curve prediction which
perfectly complements the already-strong
Cluster Analysis module in IP. New for IP4.3
we have introduced both Hexagonal 2D maps,
and 3D maps. The 3D maps removes boundary
effects giving much lower distortion, and is an
Indusry First.
Unconventional Resources (included with IP Basic)
The accurate determination of gas/oil in place,
at surface conditions per volume of resource
is important for commercial decisions on
development. This new module comprises a
suite of tools to provide this information, for coal
bed methane and tight gas resources as well as
organic shale, and outputs the data in formats
for direct input into Reservoir Simulators.
Gas Analysis (included with IP Basic)
Interpret the reservoir fluid type using gas ratio
analysis of mud log data.
Image Log Processing and Interpretation
The Image Analysis module covers the complete
workflow from raw data processing, speed
correction, image enhancements etc, through
manual and automatic picking, to statistical
analysis of the results including stereonet
analysis. The module handles tools from all main
service companies and new tools can be added
to the program. Senergy can also, if required,
add and create these to the program in a
future release, at the client’s request. Users can
therefore save money, improve data quality and
extract more value by doing their own LQC and
interpretation.
Chrono Log
The Chrono Log module provides better QC
and operational decision making by viewing
and interpreting LWD/MWD and drilling data in
time/date based wells and log plots. If a zone
has been passed more than once time-lapse
analysis can be performed. The user can also
convert time/date referenced data to depth
referenced data, providing full control of this
important process.
production contribution of each fluid type (gas/
water/oil) at each reservoir depth from raw
production logging data. Sub-modules include
Spinner Calibration, Velocity Calculation, PVT
Conversions and Multi-Phase Flow Calculation.
The module also includes tools specifically
designed for the importing, shifting and editing
of PL data. The results are a final log plot and
automated report detailing the exact volumes
of each fluid type being produced from each
reservoir section. Step-by-step workflow design
allows for an intuitive experience for expert and
casual users alike.
Saturation Height Modelling
The Saturation Height Modelling module reduces
uncertainty in the petrophysical interpretation
and provides robust functions for dynamic
reservoir simulation model. The user can create
saturation versus height functions from either
capillary pressure (Pc) data or from calculated
water saturation curves, or a combination of
both approaches. With new enhancements in IP
v4.2 users can now make closure corrections on
raw Pc data and display Pc data on 3D crossplots.
Rock Physics
The Rock Physics module in IP provides workflows
essential to truly understand the fluid effects in
the seismic data and understand the effect this
has on the acoustic impedance. These include
fluid substitution, to correct the raw logs to
conditions as seen by the seismic, and the
generation of synthetic seismic traces.
The fluid substitution cross plot enables the user to visualise the relationship between the velocities, density, AI and poissons ratio results.
Formation Testing
The Formation Testing module in IP enables the user to create a multi-well project in order to view,
QC, interpret and better understand each individual formation pressure/time test in the project and
has been designed to cater for all FT tools including LWD tools.
Organic Shale Workflows (included with IP Basic & Mineral Solver)
IP workflows facilitate the robust
computation of effective porosity
and hydrocarbon saturation in
organic shales. These include
a TOC (Total Organic Carbon
Content) module which can
be incorporated into the
deterministic Vclay Porosity and
Water Saturation modules or the
non-deterministic Mineral Solver
module.
Eastern European Resistivity Correction
The Eastern European Resistivity Correction
module applies invasion and thin bed corrections
to Russian, and old western, lateral and normal
resistivity logs to derive accurate Rt and Rxo,
maximizing the value of such data types.
Real Time Data
The Real Time Data module connects to a
remote data server and loads real-time drilling
data and log curves into IP. Automated analysis
workflows can save valuable operational time
with immediate interpretation.
www.lr-senergy.com
LR Senergy Software:
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North Deeside Road,
Banchory
AB31 5YR
United Kingdom
T: +44 1330 825188
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