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World-class E&P services, packaged your way
You need answers, fast. Now, Schlumberger brings its best-in-class E&P
software to your project, combines it with our renown in-house expertise
into one convenient, pay-as-you-go package. Accelerated by artificial
intelligence and machine learning, the result is the most efficient path to better
performance outcomes, and the freedom to tackle even more complex challenges.

Simplified access to unprecedented performance.

With the industry’s top-tier software, technology, and consultative package applied to your unique production challenges, you have easy access to optimum performance outcomes. And it all comes at a premium monthly fixed price.

Reservoir performance
Reservoir characterization

Completion Strategy Advisory

  • 1D Mechanical Earth Models
  • Fracture modeling for multiple completion strategies
  • Production forecasting
  • Ranking of completion strategies
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Lateral Landing Point Advisory

  • Creation of 1D MEM for geomechanics
  • High fidelity planar fracture models
  • Optimized landing points
  • Estimate of zone productivity
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Midstream Water Services

  • Make informed decisions that improve value for the asset
  • Evaluate opportunities for additional pressure boosting
  • Rerouting flow to focus resources on prioritized Salt Water Disposal facilities
  • Access to advanced data analytics to monitor the health of the entire system
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PIPESIM Python Coaching Services

  • Provide coaching to create Python scripts for interacting with PIPESIM model and orchestrating simulation runs
  • Provide overview and explanation of sample case studies in PIPESIM installation folder
  • Provide troubleshooting to user-written PIPESIM-Python scripts
  • Recommend best practices to user-written PIPESIM-Python scripts
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Production & Process Engineering Consulting Services

  • Improve well performance thru optimization
  • Select the right type and size of Artificial Lift techniques for the wells
  • Efficiently create Wellbore startup, cleanup and blowdown procedures including maximum release rate calculations
  • Better facility design. Know your network bottlenecks and execute right development plans
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Rapid Reservoir Modeling and Simulation Workflow

  • Production Interpretation
  • Reservoir calibration through history matching
  • EUR estimation through numerical and analytical methods
  • Well spacing and completion optimization
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Shale Well Flowback Services

  • Long-term production EUR improvement
  • CAPEX savings: Protect the investment of the fracturing treatment by avoiding proppant waste
  • OPEX saving: Avoid unnecessary workover operations like remedial lateral cleanouts or pumps replacements due to sand issues
  • Enhance operational decision making
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100Eyes Machine Learning Solution

  • New automated method based on machine learning for log editing and synthetic log generation
  • Capable of ingestion and analysis of 1000s of LAS files for your rapid basin screening
  • Can reduce time spent on well log conditioning up to 10 times
  • Improves your petrophysical uncertainty and removes bias
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1D Mechanical Earth Model

  • a robust one-dimensional model
  • a live data repository of all geomechanically relevant information
  • a numerical representation of the state in-situ stress and rock mechanical properties
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Amplitude Versus Angle (AVA) attribute (input angle gathers)

The primary objectives of generating AVA attributes are:
  • Use changes in seismic amplitude with angle to generate AVA attributes that can be correlated to rock properties.
  • Identify AVA anomalies from background trends.
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Amplitude Versus Angle (AVA) attribute (input angle stacks)

The primary objectives of generating AVA attributes are:
  • Use changes in seismic amplitude with angle to generate AVA attributes that can be correlated to rock properties.
  • Identify AVA anomalies from background trends.
Learn more

Core-scale Characterization without taking core

  • High-resolution characterization of mechanical properties to enhance drilling and completion optimization
  • Customizable to the client’s high-resolution reservoir characterization requirements
  • utilizes a suite of proven advanced borehole image-based workflows and also a newly developed, high-resolution mechanical properties workflow
  • Characterization of facies, textural heterogeneity and thin bed properties
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Geo-mechanical Specific Energy Plus (GMSE+)

  • Understand wellbore performance in horizontal wells combining measurements and drilling parameters
  • Mud Weight recommendations to stay in the safe window improving the horizontal wellbore quality
  • Aid to drilling efficiency
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Horizon interpretation and Attribute extraction

The primary objectives of horizon interpretation and attribute extraction are:
  • Mapping major stratigraphic events for regional understanding of depositional system
  • Structural interpretation for reservoir section, including fault interpretation
  • Attribute analysis e.g. to define discontinuities from Ant Tracking
  • Horizon attribute extraction QC
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Integrated Well Data Management

  • Well Data gathering including well logs, mud logs, cores, checkshots, deviation, borehole properties, test data
  • Environmental corrections and harmonization
  • Integrated petrophysical interpretation and elastics properties computations
  • Feeds into Quantitative Interpretation (QI) and seismic tie work
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Intelligent Reservoir Characterization

  • Propagate knowledge/interpretations from key wells to other wells in the field
  • Real-time or near real-time deliverables using solutions trained on nearby wells for quick decision making
  • Creation of custom solutions integrating cross-domain data where such collaboration may not be obvious
  • Framework to develop custom solutions utilizing ML/AI technologies for customer specific challenges harnessing and maximizing value of existing data
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Lithology prediction

The primary objectives of lithology prediction are:
  • Use seismic pre stack AVO inversion results to predict lithological distribution for the field.
  • Identify potential sweet spots in reservoir.
  • Distribution of lithologies helps to delineate optimum reservoir rocks.
  • Provide information about landing and horizontal well placement.
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Optimized Disposal Well Injectivity

  • Guide optimized water disposal injection operations and mitigate potential induced seismicity concerns
  • Gain an enhanced understanding of vertical and horizontal permeability from porosity classification and quantification
  • Borehole images provide a unique opportunity to fully characterize the injection interval beyond the resolution of all other available log measurements
  • Results interpreted by a basin-experienced Schlumberger borehole geologist
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Pad specific post-stack seismic inversion

The primary objectives of post seismic inversion are:
  • Use changes in post stack seismic amplitude calibrated with well data to determine rock properties.
  • Generate acoustic impedance directly correlated to well data.
  • Generate layer property rather than an interface property.
  • Generate acoustic impedance that can be used in estimating porosity and may also give an indication of lithology.
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Pad specific pre-stack seismic inversion

The primary objectives of prestack seismic inversion are:
  • Use changes in seismic amplitude with offset/angle calibrated with well data to determine rock properties.
  • Generate inversion attributes directly correlated to well data.
  • Generate layer properties rather than interface properties.
  • Generate Acoustic Impedance and VP/VS that can be used in predicting porosity, lithology and fluid type (gas, oil, water).
Learn more

Seismic Well tie

The primary objectives of geophysical seismic well tie are:
  • Seismic well-tie deriving time-depth relationship and extracting a wavelet capturing the amplitude, phase, and bandwidth of the seismic data.
  • Time-depth relationship allows correlation of well measured properties to seismic data.
  • Examination and extrapolation of well properties using seismic attributes.
  • Estimated wavelet helps to run post stack and pre stack inversion from seismic data to predict elastic properties.
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Unconventional Reservoir Producibility

Oil Reservoir
  • Reservoir Producibility Index
  • In-situ free hydrocarbons in sample

Condensate or Dry Gas Reservoir
  • Calculates Gas in Place
  • Calculates Cumulative Gas in Place
  • Wellbore Stability Analysis

    • Assurance drill string transit
    • Good logging measurements
    • Lesser time to run casings
    • Allow a better cement barrier
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    Well-log editing

    The primary objectives of geophysical well data editing are:
    • The editing will be done on compressional sonic, shear sonic and bulk density logs.
    • Correcting well data for bad borehole condition, cycle skipping and unreliable properties.
    • Correcting for depth mismatch between different measurement.
    • Edited well data will be suitable for rock physics model building, seismic well tie, post stack seismic inversion and pre stack seismic inversion.
    Learn more

    Well-log prediction

    The primary objectives of geophysical well data prediction are:
    • The prediction will be done for compressional sonic, shear sonic and bulk density logs.
    • Synthetic well data will be generated for bad borehole condition, missing section, poor data quality or absence of measurement.
    • Predicted well data will be suitable for rock physics model building, seismic well tie, post stack seismic inversion and pre seismic stack inversion.
    Learn more