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New features for reservoir characterization HampsonRussell 10.1 and 10.2
Fully integrated suite of geophysical interpretation tools
2016 Release Dates
HRS 10.1 – February 18, 2016 HRS 10.2 – September 2016
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Strata
AVO Pro4D
ProMC
Emerge
LithoSI
GeoSI
RockSI
ProAZ
ISMap
Attributes
AFI
HRS 10.1 Pre Stack Inversion – Vs/Vp Ratio Test
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Based on the Vp/Vs ratio error, the optimum Gamma value is 0.45
HRS 10.1 Pre Stack Inversion - Iteration Test
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A stable inversion result is achieved after 25 iterations in this case, allowing the inversion to be run in half the time
of the default number of iterations (50).
HRS 10.1 – Petrel Connections
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HRS 10.1 Crossplot Cluster Projection to Seismic Volumes
Seismic cross plot clusters can be interactively projected throughout
seismic volumes.
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HRS 10.1 RPT Projection to Seismic Volumes
Rock Physics Templates (RPT’s) can be interactively projected throughout seismic volumes.
Launch RPT
Launch Cross
Section
This tool allows the study of azimuthal velocity effects for a user-selected event. The graph to the far right shows the azimuthal traveltime for the highlighted event at 2244 ms. The calculated residual travel times are displayed in color along with the seismic gather. The azRNMO display shows the residual travel time versus azimuth along with the modeled azimuthal RNMO. The data is color coded by offset. The red and blue curves show the predicted RNMO at the mid offset (5,000 ft.) and the maximum offset (10,000 ft.).
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ProAZ Azimuthal Velocity Analysis
Traveltime vs Azimuth
Near Mid Far
Azimuth
RN
MO
in m
s
Offset is represented
by color.
ProAZ Resolution of the Symmetry Axis Ambiguity
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Figure 1 The traditional solution (a) anisotropic gradient and (b) symmetry axis azimuth calculated using the
positive Bani. Note how the azimuth oscillates.
Figure 2 The (a) anisotropic gradient and (b) symmetry axis azimuth calculated using the stress constraint.
Note how the azimuth now is much more stable.
The estimate of the symmetry axis from AVOAz inversion is non-unique, with two solutions 90 degrees apart. In HRS10.1 geologic and rock physics constraints are used to help resolve this issue.
ProAZ Far-Offset Rüger (7 Parameter) Inversion
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In HRS10.1 it is possible to solve the seven-parameter linearized AVOAz inversion. In the HTI case this is equivalent to the far-offset Rüger equation. In the case of HTI media the seven parameters include the density, vertical P-wave and S-wave velocity reflectivity and the contrast in delta, epsilon and gamma. It is also possible to parameterize the problem in terms of fracture weakness parameters as shown in the figure to the right. The figure to the right shows the (a) normal, vertical and horizontal fracture weakness contrast parameters estimated from the seven-parameter AVOAz inversion based on synthetic data. All show the correct azimuth (b) of 30 degrees. The fracture weakness contrasts are all positive at the top of the fractured zone (1000 ms) and negative at the base (1100 ms) and have the correct polarity.
Fractured interval
ProAZ Calculate and Display Azimuthal Uncertainty
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In HRS 10.1 the Azimuthal AVO Volume Process optionally outputs uncertainty. The standard deviation of each attribute is estimated following Downton and Gray (2006). Uncertainty is displayed as ‘whiskers’ in the HRS Advanced 3D visualization module.
Area of higher uncertainly
Area of lower uncertainly
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Advanced 3D Visualization
HRS 10.1 provides added features to the Advanced 3D Viewer. This 3D visualization tool allows display of the stratigraphic grid used by GeoSI and it supports displays of fractures and platelets from Azimuthal attributes. The viewer also handles large seismic volumes. RGBA blending adds an Alpha value to the display, which is transparency or opacity.
Processing
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Within the ‘Output’ tab of many processes, a test can be run to determine the most efficient number of threads to use. The user can now specify how
many threads to dedicate to a process before starting it.
Example test speed of an Angle Gather process using 1,2,3 and 4 threads.
AVO Quick Modelling (1D)
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AVO Quick Modeling optionally accommodates
import of curve values from Petro Elastic Models
produced in other HRS modules.
This feature is activated from an icon in the Wells display tab or from the Processes window. A simple table of curve values can be imported or entered for between 1 and 6 layers. The curve thicknesses and values for P-wave, S-wave or Density can then be dragged and dropped, interactively updating a
synthetic offset or angle seismic gather display, in real time.
AVO Quick Modelling (1D)
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Within the same Quick module, AVO intercept and gradient analysis can be analysed
An example of a 3 layer input to AVO Quick Modeling. The user specifies the start depth of each layer with P-wave, S-wave and Density values for each.
Emerge Prediction for Multiple Target Zones
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To run Emerge workflow on multiple target zones, we now can use an “indicator” log to exclude certain zones
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HampsonRussell 10.2
HRS 10.2 Features (Q3 2016) MapPredict (ISMap upgrade) Horizontal well attribute extraction Emerge Log Predict for horizontal wells
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HRS 10.2 Features: Avo and ProAZ
AVO Improve accuracy of offset-to-angle mapping at large angles Support average angle in AVO synthetics ProAZ
Improvements to azimuthal modelling: - ability to model multiple fracture sets - stress induced anisotropic modeling 2-term and 3-term residual RNMO flattening Improvements to Azimuthal Velocity Analysis Workflow for Independent Azimuthal Inversion
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HRS 10.2 Features ProMC: Improve accuracy of offset-to-angle mapping at large PS angles PS AVO Gradient Analysis Pro4D: Option to shift inline/xline/depth axes based on Dave Hale's Dynamic Time Warping Dynamic 3D warping GeoSI. Allow using external model for SI model creation LithoSI. Depth domain analysis Advanced 3d Viewer. SubVolume with “tilt”(dip/azimuth) capability to match
stratigraphic structure and move along the arbitrary tilted axis direction
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HRS 10.2 Features: Attributes
Current HRS 10.1 Attributes:
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HRS 10.2 additions are: FXY Filter Bandwidth Attribute Anisotropic Diffusion Filter (shown below)
HRS 10.2 Features
Handling of water bottom markers Faster loading of 3d SEG-y files with uniform grid Volume Merging Crash protection and process recovery Culture data. Reading of ESRI shape files Improvements to Log Correlation and Log Processing options Export of well data and post-stack volumes to Petrel
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Client support and access to latest software releases
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Access release notes with all of the improvements, download the latest releases, and request technical support at GeoSoftware support website For more information, please contact your local CGG GeoSoftware business manager or email [email protected]
Thank you